LIGO/Virgo G211117

A. Rowlinson (UvA, ASTRON), J. Broderick (ASTRON), P.G. Jonker
(SRON/RU), R.P. Fender (Oxford), R.A.M.J. Wijers (UvA), B.W. Stappers
(Manchester), S. ter Veen (ASTRON), S. Ghosh (RU), S. Nissanke (RU),
A. Shulevski (ASTRON) report on behalf of the LOFAR Transients Key
Science project

On December 26, 2016, starting at 14:20 (UTC), we observed a large fraction
of the localization error range of the Advanced LIGO trigger G211117
(GW151226) with the ILT (International Low-Frequency Array [LOFAR]
Telescope). This is an additional set of LOFAR observations of these fields
at 1 year following the detection. The observations were obtained with the
High-Band Antennas (HBA) at a centre frequency of 145 MHz (bandwidth
15.6 MHz). We used 6 simultaneous beams on the sky, where each
beam has a field of view of approximately 12 deg^2 (beam FWHM 3.9
degrees). The beam centres are given below:

Pointing 1 (starting at 14:22 UTC and 18:22 UTC)
1) 39.750000 19.433333 02:39:00.00 +19:26:00.0
2) 37.478042 19.814500 02:29:54.73 +19:48:52.2
3) 39.056375 21.630111 02:36:13.53 +21:37:48.4
4) 40.443625 17.236556 02:41:46.47 +17:14:11.6
5) 42.021958 19.052167 02:48:05.27 +19:03:07.8
6) 37.817000 17.209667 02:31:16.08 +17:12:34.8

Pointing 2 (starting at 14:52 UTC and 18:52 UTC)
1) 43.523458 24.012694 02:54:05.63 +24:00:45.7
2) 41.204125 24.163000 02:44:48.99 +24:09:46.8
3) 42.663792 26.172056 02:50:39.31 +26:10:19.4
4) 44.383125 21.853333 02:57:31.95 +21:51:12.0
5) 45.842792 23.862389 03:03:22.27 +23:51:44.6
6) 41.683000 21.657000 02:46:43.92 +21:39:25.2

Pointing 3 (starting at 15:22 UTC and 19:22 UTC)
1) 47.347500 28.815800 03:09:23.40 +28:48:56.9
2) 45.035000 29.249472 03:00:08.40 +29:14:58.1
3) 46.833417 31.111750 03:07:20.02 +31:06:42.3
4) 47.861583 26.519861 03:11:26.78 +26:31:11.5
5) 49.660000 28.382139 03:18:38.40 +28:22:55.7
6) 45.311208 26.473306 03:01:14.69 +26:28:23.9

Pointing 4 (starting at 15:52 UTC and 19:52 UTC)
1) 51.762750 33.469417 03:27:03.06 +33:28:09.9
2) 49.412000 33.897167 03:17:38.88 +33:53:49.8
3) 51.335000 35.820194 03:25:20.40 +35:49:12.7
4) 52.190500 31.118639 03:28:45.72 +31:07:07.1
5) 54.113500 33.041667 03:36:27.24 +33:02:30.0
6) 49.550083 31.096639 03:18:12.02 +31:05:47.9

Pointing 5 (starting at 16:22 UTC and 20:22 UTC)
1) 56.818083 37.934167 03:47:16.34 +37:56:03.0
2) 54.463958 38.555972 03:37:51.35 +38:33:21.5
3) 56.699333 40.366111 03:46:47.84 +40:21:58.0
4) 56.936833 35.502222 03:47:44.84 +35:30:08.0
5) 59.172208 37.312361 03:56:41.33 +37:18:44.5
6) 54.117958 35.824611 03:36:28.31 +35:49:28.6

Pointing 6 (starting at 16:52 UTC and 20:52 UTC)
1) 62.380833 42.438778 04:09:31.40 +42:26:19.6
2) 60.036333 43.290528 04:00:08.72 +43:17:25.9
3) 62.643042 44.919389 04:10:34.33 +44:55:09.8
4) 62.118625 39.958167 04:08:28.47 +39:57:29.4
5) 64.725333 41.587028 04:18:54.08 +41:35:13.3
6) 59.555833 40.151139 03:58:13.40 +40:09:04.1

Pointing 7 (starting at 17:22 UTC and 21:22 UTC)
1) 68.908792 46.437806 04:35:38.11 +46:26:16.1
2) 66.516750 47.358250 04:26:04.02 +47:21:29.7
3) 69.395792 48.954111 04:37:34.99 +48:57:14.8
4) 68.421792 43.921500 04:33:41.23 +43:55:17.4
5) 71.300833 45.517361 04:45:12.20 +45:31:02.5
6) 65.573417 44.433722 04:22:17.62 +44:26:01.4

Pointing 8 (starting at 17:52 UTC and 21:52 UTC)
1) 76.256792 50.093972 05:05:01.63 +50:05:38.3
2) 73.881750 51.253417 04:55:31.62 +51:15:12.3
3) 77.159833 52.577833 05:08:38.36 +52:34:40.2
4) 75.353750 47.610111 05:01:24.90 +47:36:36.4
5) 78.631833 48.934528 05:14:31.64 +48:56:04.3
6) 72.434875 48.392333 04:49:44.37 +48:23:32.4

The observations cover roughly 200 square degrees in total. Each
field was observed for a total of 53 min (2 x 26.5 min) with 10s time
resolution after pre-processing.

Analysis is ongoing.

The LIGO Scientific Collaboration and Virgo report:

A data release for the gravitational-wave event GW151226 (originally
named G211117) is available for public use from the LIGO Open Science
Center (LOSC) at https://losc.ligo.org/events/GW151226 .  This
includes:

  * Numerical values of estimated source parameters
  * 4096 s of gravitational-wave strain data around the time of GW151226
  * Sky localization FITS files, including the final LALInference sky map
  * Skymap Viewer links to visualize the sky maps
  * Links to tutorials and other information about GW151226

A. M. Read (U. Leicester), A. Tiengo (IUSS Pavia), R. Salvaterra 
(INAF-IASF Milano), E. Troja (NASA/GSFC), R. D. Saxton (ESAC) report:

We analyzed the XMM-Newton slews made in the two weeks after the 
LIGO/Virgo G211117 / GW151226 event. Five slews intercept the BAYESTAR 
localization map in this period of time for a total coverage of about 26 
square degrees:

Obs ID     |    date    |  T-T_GW   |coverage of localization map
9294000002 | 2015-12-28 |   2.7 d   |  3 deg2
9294300002 | 2016-01-03 |   8.7 d   |  4 deg2
9294400002 | 2016-01-06 |  11.6 d   |  2 deg2
9294500002 | 2016-01-08 |  13.6 d   |  2 deg2
9294600002 | 2016-01-10 |  15.5 d   | 15 deg2

For each dataset (EPIC pn data with the Medium filter) we performed the 
source detection following the method described in Troja et al. 2016 
(ApJ, 822, L8).
Typical sensitivity limits of slew observations are ~6e-13 ergs cm-2 s-1 
in the 0.2-2 keV band and ~4e-12 ergs cm-2 s-1 in the 2-12 keV band. The 
list of the most significant 0.2-12 keV band detections (DET_ML>12) in 
each slew intersecting the GW151226 localization map with no counterpart 
within 30 arcsec in the ROSAT All Sky Survey (Boller et al. 2016, A&A 
588, A103) is reported below. The flux and counts are computed in the 
0.2-12 keV energy band.

----------
Revolution 2940, Observation ID 9294000002
RA (deg)    DEC (deg)  POS_ERR (")   CTS  CTS_ERR  DET_ML EXPOSURE (s) 
FLUX (ergs cm-1 s-1)
27.3262   -1.1849         4.1           6.2    2.6 20.1          
12.0               5.2e-12

----------
Revolution 2943, Observation ID 9294300002
RA (deg)    DEC (deg)  POS_ERR (")   CTS  CTS_ERR  DET_ML EXPOSURE (s) 
FLUX (ergs cm-1 s-1)
15.6690   -20.0254       3.3             6.6     2.8 18.7         
7.8                 8.5e-12
14.6309   -17.6256       4.7             4.8     2.4 12.9         
3.3                 1.4e-11

----------
Revolution 2944, Observation ID 9294400002
RA (deg)    DEC (deg)  POS_ERR (")   CTS  CTS_ERR  DET_ML EXPOSURE (s)  
FLUX (ergs cm-1 s-1)  Notes
186.5515   5.5650         5.1             5.0     2.4 14.8         
9.4                 5.3e-12     Detected also in Revolution 2945
186.7524   6.0297         3.5             4.8     2.3 17.9         
11.3               4.2e-12
186.2499   5.0154         4.5             4.7     2.3 13.7         
10.8               4.3e-12
185.0333   2.4117         4.2             7.8     3.0 20.0          
6.2                1.2e-11

----------
Revolution 2945, Observation ID 9294500002
RA (deg)    DEC (deg)  POS_ERR (")   CTS  CTS_ERR  DET_ML EXPOSURE (s)  
FLUX (ergs cm-1 s-1)   Notes
186.5545   5.5635        3.3               8.6     3.0 34.1        
8.8                 9.8e-12     Detected also in Revolution 2944
186.9961   6.5894        3.6               4.5     2.2 18.6        
13.4               3.3e-12
186.6783   5.9833        5.2               5.5     2.5 16.8        
12.0               4.5e-12
185.7506   3.7284        5.4               4.4     2.2 14.4        
10.3               4.3e-12

----------
Revolution 2946, Observation ID 92946 00002
RA (deg)     DEC (deg)  POS_ERR (")   CTS  CTS_ERR  DET_ML EXPOSURE 
(s)   FLUX (ergs cm-1 s-1)
187.2622    7.6581       4.5               8.2      3.2 12.4        
5.8                 1.4e-11
192.9292  -2.5083       4.9               5.7      2.6 15.4        
5.5                 1.0e-11
201.3687  -17.3449     8.7               4.9      2.3 12.5        
8.0                 6.2e-12

Varun Bhalerao (IUCAA), Dipankar Bhattacharya (IUCAA), Ajay Vibhute
(IUCAA), Sukanta Bose (IUCAA), Gulab Chand Dewangan (IUCAA), Ranjeev
Misra (IUCAA), Sanjit Mitra (IUCAA), A R Rao (TIFR), Tarun Souradeep
(IUCAA), Santosh Vadawale (PRL), on behalf of the Astrosat CZTI team
report:

We carried out offline analysis of data from Astrosat CZTI in a 100
second window centred on the G211117 trigger time, UT 2015-12-26
03:38:53.648, to look for any coincident hard X-ray flash. CZTI is a
coded aperture mask instrument that has considerable effective area for
about 29% of the entire sky. Based on the pointing direction of Astrosat
at the time of the GW event and the LALInference skymap provided by LVC
(LALInference_skymap.fits.gz,0), the sky visible to CZTI has 32%
probability of containing the EM counterpart.

CZTI data were de-trended to remove orbit-wise background variation. We
then searched data from the four independent, identical quadrants to
look for coincident spikes in the count rates. Searches were undertaken
by binning the data in 0.1s, 1s and 10s respectively. Statistical
fluctuations in count rates were estimated by using data from 20
neighbouring orbits. We selected confidence levels such that the
probability of a false trigger in this 100s window is 10^-4. We do not
find any evidence for any hard X-ray transient in this window. We
convert our count rates into fluence and flux limits by assuming that
the source spectrum is a power-law with a photon index Gamma = 1 and 2
respectively ( N(E) \propto E^-\Gamma ). The upper limits for source
fluence and flux in a 30-200 keV band at different timescales are:

Calculating fluxes assuming photon power law index Gamma =  1.0
0.1 s: Effective fluence limit= 2.3e-7 ergs/cm^2; flux= 2.3e-6 ergs/cm^2/s
1.0 s: Effective fluence limit= 5.8e-7 ergs/cm^2; flux= 5.8e-7 ergs/cm^2/s
10.0s: Effective fluence limit= 1.5e-6 ergs/cm^2; flux= 1.5e-7 ergs/cm^2/s

Calculating fluxes assuming phton perlaw index Gamma = 2.0
0.1 s: Effective fluence limit= 2.9e-7 ergs/cm^2; flux= 2.9e-6 ergs/cm^2/s
1.0 s: Effective fluence limit= 7.5e-7 ergs/cm^2; flux= 7.5e-7 ergs/cm^2/s
10.0s: Effective fluence limit= 1.9e-6 ergs/cm^2; flux= 1.9e-7 ergs/cm^2/s

CZTI is built by a TIFR-led consortium of institutes across India,
including VSSC, ISAC, IUCAA, SAC and PRL. The Indian Space Research
Organisation funded, managed and facilitated the project.

Liu Jinzhong (XAO), Zhang, Yu (XAO); Zhang, Xuan (XAO); Niu, Hubiao (XAO); Pu, guangxin (XAO); Ma, shuguo (XAO); Yang, taozhi (XAO); Song, fangfang(XAO), on behalf of the NOWT group report:

This is a time-dominant survey follow-up report of Liu et al. (GCN19208
Loading...
 
 ). Each FOV of NOWT was monitored 3 days using standard BVR bands, and it was marked as EWE001, EWE002, EWE003 and EWE004. Note that the calibrated magnitude value of 15 is an assumption as a up-limited magnitude in our caculation. This would imply that EM-trigger of GW sources could not correspond with the brightness targets. Meanwhile all the targets had the value of SNR>10. We reported the photometric variable information during the time-dominant survey as below.

1)Detailed information about the observation of EWE001 (time range: 2016:03:06:13:14:05 to 2016:03:06:23:37:35, 2016:03:08:13:42:24 to 2016:03:08:23:42:55, 2016:03:09:13:15:58 to 2016:03:09:23:27:43)

RA               DEC         Mag(V)       M_err     Variability-type
137.531483       55.002369   15.265       0.0295    eruptive with irregularity
138.630270       55.123970   15.823       0.0950    periodicity
138.598282       54.811173   16.544       0.1485    eruptive with a dip
136.399169       54.822750   16.208       0.1301    cataclysmic with regularity

2)Detailed information about the observation of EWE002 (time range: 2016:03:10:13:16:56 to 2016:03:10:23:06:05, 2016:03:12:13:17:50 to 2016:03:12:23:34:34, 2016:03:13:13:39:14 to 2016:03:13:23:25:10)

RA               DEC         Mag(V)       M_err     Variability-type
149.856039       50.518744   15.258       0.0215    eruptive with a dip
149.570337       49.430700   15.976       0.0590    periodicity
149.823531       50.014876   16.249       0.0566    eruptive with a dip
149.281069       50.077445   17.436       0.1037    fast oscillation
149.828243       50.145567   17.894       0.1390    eruptive with a dip
149.831656       50.168234   16.148       0.0402    eruptive with double dips
150.894291       50.252967   16.218       0.1062    pulsating
149.269826       50.234558   16.994       0.1039    eruptive with double dips

3)Detailed information about the observation of EWE003 (time range: 2016:03:21:14:07:32 to 2016:03:21:23:17:36, 2016:03:22:13:28:44 to 2016:03:22:22:57:18, 2016:03:23:13:38:56 to 2016:03:23:22:30:22)

RA               DEC         Mag(V)       M_err     Variability-type
151.734041       49.563742   15.804       0.1241    eruptive with double dips
151.413957       49.553095   15.107       0.1846    periodicity

4)Detailed information about the observation of EWE004 (time range: 2016:03:24:13:30:26 to 2016:03:24:22:41:01, 2016:03:27:15:12:19 to 2016:03:27:23:05:59, 2016:03:28:16:09:54 to 2016:03:28:23:05:07)

RA               DEC         Mag(V)       M_err     Variability-type
152.055858       48.805903   15.183       0.1058    periodicity
152.626914       48.925828   15.193       0.0503    fast oscillation
152.917431       48.942816   15.131       0.0606    eruptive with a tuber
151.415220       49.552819   15.237       0.0741    eclipsing
151.142881       49.586450   15.450       0.0488    eruptive with three dips
151.936807       48.837133   15.695       0.0494    fast oscillation
152.207676       48.715853   17.186       0.1914    periodicity

Note: 21 targets can be found as the photometric variability, and the follow-up of spectrograph observation should be important next. Analysis is ongoing.


--
N: Jinzhong Liu, PhD
O: Main building, 213
P: 150, Science 1-Street, Urumqi, Xinjiang 830011, China
T: 86 991 3689027
D: 2012-07-14
E: optics@xao.ac.cn

A. J. Castro-Tirado (IAA-CSIC), M.-D. Caballero-Garcia (ASU-CAS), S.R. 
Oates (IAA-CSIC), S. Jeong (IAA-CSIC and SKKU), B-B. Zhang (IAA-CSIC) 
and E. Pian (SNS-Pisa), report:

���Further to GCNCs 19145, 18848, 18811 and 18786, we report the 
spectroscopic follow-up of the Pan-STARRS transient PS15dpn within the 
localisation region of G211117. OSIRIS spectra (2 x 600s) at the 10.4m 
GTC in La Palma were taken on 5 Jan 2016 and covered the range 700-1000 
nm. r-band photometric observations were performed near-simultaneously 
to the optical spectroscopy.  We confirm the z=0.1749 redshift from the 
host galaxy based on the detection of H-alpha and NII emission lines in 
this range.���

J. Broderick (ASTRON), A. Rowlinson (UvA, ASTRON), P.G. Jonker
(SRON/RU), R.P. Fender (Oxford), R.A.M.J. Wijers (UvA), B.W. Stappers
(Manchester), S. ter Veen (ASTRON), S. Ghosh (RU), A. Shulevski
(ASTRON) report on behalf of the LOFAR Transients Key Science project

On March 30, 2016, starting at 09:03 (UTC), we observed a large fraction
of the localization error range of the Advanced LIGO trigger G211117
with the ILT (International Low-Frequency Array [LOFAR] Telescope).
This is the third and final set of LOFAR observations of these fields. The observations
were obtained with the High-Band Antennas (HBA) at a centre frequency
of 145 MHz (bandwidth 15.6 MHz). We used 6 simultaneous beams on the
sky, where each beam has a field of view of approximately 12 deg^2
(beam FWHM 3.9 degrees). The beam centres are given below:

Pointing 1 (starting at 09:03 UTC and 13:03 UTC)
1) 39.750000 19.433333 02:39:00.00 +19:26:00.0
2) 37.478042 19.814500 02:29:54.73 +19:48:52.2
3) 39.056375 21.630111 02:36:13.53 +21:37:48.4
4) 40.443625 17.236556 02:41:46.47 +17:14:11.6
5) 42.021958 19.052167 02:48:05.27 +19:03:07.8
6) 37.817000 17.209667 02:31:16.08 +17:12:34.8

Pointing 2 (starting at 09:33 UTC and 13:33 UTC)
1) 43.523458 24.012694 02:54:05.63 +24:00:45.7
2) 41.204125 24.163000 02:44:48.99 +24:09:46.8
3) 42.663792 26.172056 02:50:39.31 +26:10:19.4
4) 44.383125 21.853333 02:57:31.95 +21:51:12.0
5) 45.842792 23.862389 03:03:22.27 +23:51:44.6
6) 41.683000 21.657000 02:46:43.92 +21:39:25.2

Pointing 3 (starting at 10:03 UTC and 14:03 UTC)
1) 47.347500 28.815800 03:09:23.40 +28:48:56.9
2) 45.035000 29.249472 03:00:08.40 +29:14:58.1
3) 46.833417 31.111750 03:07:20.02 +31:06:42.3
4) 47.861583 26.519861 03:11:26.78 +26:31:11.5
5) 49.660000 28.382139 03:18:38.40 +28:22:55.7
6) 45.311208 26.473306 03:01:14.69 +26:28:23.9

Pointing 4 (starting at 10:33 UTC and 14:33 UTC)
1) 51.762750 33.469417 03:27:03.06 +33:28:09.9
2) 49.412000 33.897167 03:17:38.88 +33:53:49.8
3) 51.335000 35.820194 03:25:20.40 +35:49:12.7
4) 52.190500 31.118639 03:28:45.72 +31:07:07.1
5) 54.113500 33.041667 03:36:27.24 +33:02:30.0
6) 49.550083 31.096639 03:18:12.02 +31:05:47.9

Pointing 5 (starting at 11:03 UTC and 15:03 UTC)
1) 56.818083 37.934167 03:47:16.34 +37:56:03.0
2) 54.463958 38.555972 03:37:51.35 +38:33:21.5
3) 56.699333 40.366111 03:46:47.84 +40:21:58.0
4) 56.936833 35.502222 03:47:44.84 +35:30:08.0
5) 59.172208 37.312361 03:56:41.33 +37:18:44.5
6) 54.117958 35.824611 03:36:28.31 +35:49:28.6

Pointing 6 (starting at 11:33 UTC and 15:33 UTC)
1) 62.380833 42.438778 04:09:31.40 +42:26:19.6
2) 60.036333 43.290528 04:00:08.72 +43:17:25.9
3) 62.643042 44.919389 04:10:34.33 +44:55:09.8
4) 62.118625 39.958167 04:08:28.47 +39:57:29.4
5) 64.725333 41.587028 04:18:54.08 +41:35:13.3
6) 59.555833 40.151139 03:58:13.40 +40:09:04.1

Pointing 7 (starting at 12:03 UTC and 16:03 UTC)
1) 68.908792 46.437806 04:35:38.11 +46:26:16.1
2) 66.516750 47.358250 04:26:04.02 +47:21:29.7
3) 69.395792 48.954111 04:37:34.99 +48:57:14.8
4) 68.421792 43.921500 04:33:41.23 +43:55:17.4
5) 71.300833 45.517361 04:45:12.20 +45:31:02.5
6) 65.573417 44.433722 04:22:17.62 +44:26:01.4

Pointing 8 (starting at 12:33 UTC and 16:33 UTC)
1) 76.256792 50.093972 05:05:01.63 +50:05:38.3
2) 73.881750 51.253417 04:55:31.62 +51:15:12.3
3) 77.159833 52.577833 05:08:38.36 +52:34:40.2
4) 75.353750 47.610111 05:01:24.90 +47:36:36.4
5) 78.631833 48.934528 05:14:31.64 +48:56:04.3
6) 72.434875 48.392333 04:49:44.37 +48:23:32.4

The observations cover roughly 200 square degrees in total.  Each
field was observed for a total of 53 min (2 x 26.5 min) with 10s time
resolution after pre-processing.

Analysis is ongoing.

A. Yoshida, T. Sakamoto, I. Takahashi, Y. Kawakubo, K. Senuma, 
M. Moriyama, Y. Yamada (AGU), K. Yamaoka (Nagoya U), S. Nakahira (JAXA), 
Y. Asaoka, S. Ozawa, S. Torii (Waseda U), Y. Shimizu, T. Tamura (Kanagawa U), 
W. Ishizaki (ICRR), M. L. Cherry (LSU), S. Ricciarini (U of Florence) 
P. S. Marrocchesi (U of Siena) and the CALET collaboration:

The CALET Gamma-ray Burst Monitor (CGBM) was operating at the trigger time 
of G211117 (GCN Circ. 18728
Loading...
 
 ).  No CGBM on-board trigger occurred at the time 
of the event.  Based on the updated LIGO sky map (GCN Circ. 18858
Loading...
 
 ), 
the southern arc of the high probability area was in the field-of-view of CGBM.  

Based on the analysis of the light curve data with 0.125 sec time resolution 
from -60 sec to 60 sec from the trigger time, we found no significant excess 
around the trigger time in either the HXM (7-1000 keV) or the SGM (0.1-20 MeV) 
data.

Liu Jinzhong (XAO), Zhang, Yu (XAO); Zhang, Xuan (XAO); Niu, Hubiao (XAO); Pu, guangxin (XAO); Ma, shuguo (XAO); Yang, taozhi (XAO); Song, fangfang(XAO), on behalf of the NOWT group report:
We followed up the GraceDB event (event ID: G211117) with Nanshan One-meter Wide field Telescope (NOWT) from Xinjiang Astronomical observatory (XAO). The first observation was observed at UTC 2016:01:21:20:06:20. The first observation reached an exposure time of 100 seconds with V band and approached a limiting magnitude of 19.6 magnitude with a non-detection of EM-trigger during 2 hrs lasting observation.  We only report the first observation here, more information will be reported with below.


We monitored the sky region constantly since the event, and we anticipated to continue the observation for time-dominant astronomy. Analysis is ongoing, we observed the northern sky range:

=========================
Detailed information about the observation is listed below
   RA               DEC       EXP       UTC        number     total(hour)    limit_mag   filter
  09:14;28.00    +42:46:38.0  100s  20160121200620   246       2              19.6        V
  08:30:48.00    +35:00:00.0  20s   20160204130300   533       11             18.2        B/V/R/I
  08:32:40.0     +35:00:00.0  20s   20160211132012   388       10             18.4        B/V/R/I
  08:33:20.0     +35:00:00.0  35s   20160214183004   243       6              18.8        B/V/R/I
  08:34:48.0     +35:00:00.0  35s   20160219135050   387       9.5            17.2        B/V/R/I
  08:36:24.0     +35:00:00.0  35s   20160225130355   763       19.5           19.0        B/V/R/I
  08:37:12.0     +35:00:00.0  35s   20160228125352   697       18.5           19.0        B/V/R/I
  09:10:09.51    +55:14:23.7  35s   20160306130840  1217       30.5           18.8        B/V/R/I
  10:00:00.0     +50:00:00.0  35s   20160310131651  1181       30.5           18.8        B/V/R/I
  ...
  ...



--
N: Jinzhong Liu, PhD
O: Main building, 213
P: 150, Science 1-Street, Urumqi, Xinjiang 830011, China
T: 86 991 3689027
D: 2012-07-14
E: optics@xao.ac.cn

J. Wood (UMD) 
reports on behalf of the HAWC Collaboration: 
The northern portion of the reported LIGO error region was within the HAWC field-of-view at the time of gravitational-wave trigger G211117. HAWC was operating and our real-time all-sky GRB monitoring analysis was running at this time. This analysis searches for excess counts over the steady-state cosmic-ray background using 4 sliding time windows (0.1, 1, 10, and 100 seconds) shifted forward in time by 10% their width over the course of the entire day. Within each time window, we search the HAWC sky within 50 degrees of zenith using 2.3 deg x 2.3 deg square bins shifted by ~0.1 deg along the directions of Right Ascension and Declination. This analysis is tuned for detecting ~100 GeV photons and is sensitive to the most fluent GRBs [http://arxiv.org/abs/1508.04120
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  <http://arxiv.org/abs/1508.04120
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 >]. It did not report any significant post-trials events near the time of gravitational-wave trigger G211117.
On 2016/02/27 we went back and re-analyzed the data within +/- 10 seconds of gravitational-wave trigger G211117 on 3 timescales (1, 10, 100 sec) to look for excesses consistent with the latest LALInference map. To do this, we limited the spatial search of our all-sky GRB analysis to a ~15 degree wide region centered on the LIGO contour between (RA = 15 deg, Dec = -15 deg) and (RA = 90 deg, Dec = 55 deg). This yielded a single candidate from the 10 second sliding window passing a >5 sigma pre-trials threshold:

 Candidate 1:
 ===========
   RA:    28.628 (+01h 54m 30.63s) J2000
   Dec:   +1.200 (+01d 11' 59.1")  J2000
   Error: +1.15 (square region, half side)
   Start Time: 2015/12/26 03:39:03.61 UTC
   Duration:   10 seconds
   Pre-trials  p-value: 2.55e-07
   Post-trials p-value: 0.08

It occurred 9.96 seconds after gravitational-wave trigger G211117. However, accounting for the ~3.3e5 effective trials taken when searching the correlated spatial and time bins used in this analysis yields a post-trials p-value of 0.08, which is entirely consistent with a background only hypothesis. Even if we reduce the number of spatial trials by a factor of ~4 to account for the empty space within our search region the p-value only drops to ~0.02 and remains consistent with a background only hypothesis.
The HAWC observatory is a TeV gamma-ray observatory operating in Central Mexico. It consists of 300 Water Cherenkov Detectors at an altitude of 4100 meters a.s.l. A detailed description of the sensitivity of HAWC to gamma-rays can be found in A. U. Abeysekara et al., Astropart. Phys. 50-52 (2013).

E. Palazzi (INAF-IASF Bo),  E. Cappellaro (INAF-OAPd), E. Brocato (INAF-OAR), M. Branchesi (Urbino . University/INFN Firenze), S. Covino (INAF-OAB), A. Grado (INAF-OAC), E. Pian (SNS-Pisa), F. Cusano (INAF-OABo), A. Marchetti (INAF-IASF Mi), A. Rossi , L.Amati (INAF-IASF Bo), L. A. Antonelli (INAF-OAR),  S. Campana,  P. D'Avanzo (INAF-OAB), V. D'Elia (INAF-ASDC), F. Getman (INAF-OAC), G. Giuffrida (INAF-ASDC), G.Greco (Urbino University/INFN Firenze), L. Limatola (INAF-OAC), M. Lisi (INAF-OAR), S. Marinoni, P.  Marrese (INAF-ASDC),  A. Melandri (INAF-OAB), L. Nicastro (INAF-IASF Bo), S. Piranomonte (INAF-OAR), L. Pulone (INAF-OAR), G. Stratta (Urbino University/INFN Firenze), G. Tagliaferri (INAF-OAB), V. Testa (INAF-OAR), L. Tomasella (INAF-OAPd) on behalf of the GRAvitational Wave Inaf TeAM (GRAWITA).

Further to GCN 18786
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  and GCN 18811
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 , we report the spectroscopic classification of the Pan-STARRS transient PS15dpn within the localisation region of G211117. 
LBT/MODS and LBT/LUCI spectra were taken on 2016 Jan 28-29 and cover 320 nm to 1.0 microns the MODS optical spectra, 1.0 to 2-3 microns the LUCI infrared spectra.
Multiband LBT/LBC (UBVr) photometric observations were performed simultaneously with the infrared spectroscopy.  

The transient and its host galaxy are very well detected in both photometric and spectroscopic data.

The redshift of the host galaxy measured from narrow H_alpha, NII and OII emission lines  is z=0.1749.
Based on a preliminary calibration, the spectra show that the transient is a peculiar supernova of type Ibn similar to SN 2006jc few weeks after maximum (Pastorello et al. 2008, MNRAS 389,113).
Indeed there appear strong HeI emission lines (in particular the 501.6, 587.5, 706.5 nm transitions) of moderate width (FWHM< ~3000 km/s). In the near infrared two emissions are measured at ~1090 nm and  1280 nm likely due to MgII 933-934 nm and  He I 1083nm.

A. Rowlinson (UvA, ASTRON), J. Broderick (ASTRON), P.G. Jonker
(SRON/RU), R.P. Fender (Oxford), R.A.M.J. Wijers (UvA), B.W. Stappers
(Manchester), S. ter Veen (ASTRON), S. Ghosh (RU), A. Shulevski
(ASTRON) report on behalf of the LOFAR Transients Key Science project

On Feb 5, 2016, starting at 09:03 (UTC), we observed a large fraction
of the localization error range of the Advanced LIGO trigger G211117
with the ILT (International Low-Frequency Array [LOFAR] Telescope).
This is the second set of LOFAR observations of these fields. The
fields will be revisited once more with the same exposures, on
a provisional time-scale of 2 months from now. The observations
were obtained with the High-Band Antennas (HBA) at a centre frequency
of 145 MHz (bandwidth 15.6 MHz). We used 6 simultaneous beams on the
sky, where each beam has a field of view of approximately 12 deg^2
(beam FWHM 3.9 degrees). The beam centres are given below:

Pointing 1 (starting at 09:03 UTC and 13:03 UTC)
1) 39.750000 19.433333 02:39:00.00 +19:26:00.0
2) 37.478042 19.814500 02:29:54.73 +19:48:52.2
3) 39.056375 21.630111 02:36:13.53 +21:37:48.4
4) 40.443625 17.236556 02:41:46.47 +17:14:11.6
5) 42.021958 19.052167 02:48:05.27 +19:03:07.8
6) 37.817000 17.209667 02:31:16.08 +17:12:34.8

Pointing 2 (starting at 09:33 UTC and 13:33 UTC)
1) 43.523458 24.012694 02:54:05.63 +24:00:45.7
2) 41.204125 24.163000 02:44:48.99 +24:09:46.8
3) 42.663792 26.172056 02:50:39.31 +26:10:19.4
4) 44.383125 21.853333 02:57:31.95 +21:51:12.0
5) 45.842792 23.862389 03:03:22.27 +23:51:44.6
6) 41.683000 21.657000 02:46:43.92 +21:39:25.2

Pointing 3 (starting at 10:03 UTC and 14:03 UTC)
1) 47.347500 28.815800 03:09:23.40 +28:48:56.9
2) 45.035000 29.249472 03:00:08.40 +29:14:58.1
3) 46.833417 31.111750 03:07:20.02 +31:06:42.3
4) 47.861583 26.519861 03:11:26.78 +26:31:11.5
5) 49.660000 28.382139 03:18:38.40 +28:22:55.7
6) 45.311208 26.473306 03:01:14.69 +26:28:23.9

Pointing 4 (starting at 10:33 UTC and 14:33 UTC)
1) 51.762750 33.469417 03:27:03.06 +33:28:09.9
2) 49.412000 33.897167 03:17:38.88 +33:53:49.8
3) 51.335000 35.820194 03:25:20.40 +35:49:12.7
4) 52.190500 31.118639 03:28:45.72 +31:07:07.1
5) 54.113500 33.041667 03:36:27.24 +33:02:30.0
6) 49.550083 31.096639 03:18:12.02 +31:05:47.9

Pointing 5 (starting at 11:03 UTC and 15:03 UTC)
1) 56.818083 37.934167 03:47:16.34 +37:56:03.0
2) 54.463958 38.555972 03:37:51.35 +38:33:21.5
3) 56.699333 40.366111 03:46:47.84 +40:21:58.0
4) 56.936833 35.502222 03:47:44.84 +35:30:08.0
5) 59.172208 37.312361 03:56:41.33 +37:18:44.5
6) 54.117958 35.824611 03:36:28.31 +35:49:28.6

Pointing 6 (starting at 11:33 UTC and 15:33 UTC)
1) 62.380833 42.438778 04:09:31.40 +42:26:19.6
2) 60.036333 43.290528 04:00:08.72 +43:17:25.9
3) 62.643042 44.919389 04:10:34.33 +44:55:09.8
4) 62.118625 39.958167 04:08:28.47 +39:57:29.4
5) 64.725333 41.587028 04:18:54.08 +41:35:13.3
6) 59.555833 40.151139 03:58:13.40 +40:09:04.1

Pointing 7 (starting at 12:03 UTC and 16:03 UTC)
1) 68.908792 46.437806 04:35:38.11 +46:26:16.1
2) 66.516750 47.358250 04:26:04.02 +47:21:29.7
3) 69.395792 48.954111 04:37:34.99 +48:57:14.8
4) 68.421792 43.921500 04:33:41.23 +43:55:17.4
5) 71.300833 45.517361 04:45:12.20 +45:31:02.5
6) 65.573417 44.433722 04:22:17.62 +44:26:01.4

Pointing 8 (starting at 12:33 UTC and 16:33 UTC)
1) 76.256792 50.093972 05:05:01.63 +50:05:38.3
2) 73.881750 51.253417 04:55:31.62 +51:15:12.3
3) 77.159833 52.577833 05:08:38.36 +52:34:40.2
4) 75.353750 47.610111 05:01:24.90 +47:36:36.4
5) 78.631833 48.934528 05:14:31.64 +48:56:04.3
6) 72.434875 48.392333 04:49:44.37 +48:23:32.4

The observations cover roughly 200 square degrees in total.  Each
field was observed for a total of 53 min (2 x 26.5 min) with 10s time
resolution after pre-processing.

Analysis is ongoing.

The LIGO Scientific Collaboration and Virgo report:

We have completed a Bayesian parameter estimation analysis of the GW
candidate G211117 (GCN 18728
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 ) under the assumption that the signal arises
from a compact binary coalescence (CBC) and using the initial online
calibration of the GW strain data. The data is most consistent with a
binary black hole merger.

One refined sky map is now available and can be retrieved from
GraceDB (https://gracedb.ligo.org/events/G211117):

 * LALInference_skymap.fits.gz, using Bayesian Markov-chain Monte Carlo
   and nested sampling to perform forward modeling of the full GW signal
   including spin precession and regression of systematic calibration
   errors. We expect that additional parameter estimation runs based on
   the offline re-calibration of the GW data and additional waveform
   approximants will yield consistent results. We regard this sky map as
   the most accurate to date for this event.

This sky map agrees with the initial BAYESTAR and cWB localizations on
favoring two broad, disjoint segments of an annulus.

The table below presents a quantitative comparison of the available
localizations along the lines of Sec. 4.5 of Essick et al. (2015,
http://adsabs.harvard.edu/abs/2015ApJ...800...81E). The first column gives
the area in deg2 of the 90% credible region, and the second column gives
the area in deg2 of the overlap with the LALInference 90% credible region.

 Area  Overlap   Algorithm (filename)         
-------------------------------------------------------------
 1340   1090     BAYESTAR (bayestar.fits.gz)
 2230   1180     cWB (skyprobcc_cWB.fits)
 1240   ----     LALInference (LALInference_skymap.fits.gz)

A. Corsi (TTU) and N. Palliyaguru (TTU) report on behalf of a larger
collaboration:

We imaged again the position of the Pan-STARRS transient PS15dpn (Chambers
et al. GCN 18811
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 ;
also iPTF15fgl, Cenko et al. 18848), located in the error region of
LIGO/Virgo G211117 (LVC
et al., GCN 18728
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 ), with the Karl G. Jansky Very Large Array (VLA) in its
DnC configuration.
A provisional reduction of the images collected since the start of our
follow-up (Palliyaguru
et al. GCN 18846
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 ) shows a ~6 sigma excess at 6 GHz at a location consistent
with PS15dpn. Our
observations show no evidence for variability of this radio counterpart
between 08 Jan 2016
and 14 Jan 2016 (UTC). We report below a summary of our observations and
provisional results.
Further observations are planned.


Epoch 1 (08-Jan-2016/04:11:50.0-05:11:35.0 UTC)
Freq | Flux
-----------------------------------
6.2 GHz | (57.1+/-9.1) uJy
========================================
Epoch 2 (13-Jan-2016/02:17:36.0-04:42:10.0 UTC)
Freq | Flux
-----------------------------------
3.1 GHz | (86+/-30) uJy
9.0 GHz | (36.3+/-7.2) uJy
14.8 GHz| (25.2+/-6.5) uJy
========================================
Epoch 3 (14-Jan-2016/03:03:30.0-04:03:15.0 UTC)
Freq | Flux
-----------------------------------
6.3 GHz | (52.8+/-8.7) uJy

P.A. Evans (U. Leicester), J.A. Kennea (PSU), S.D. Barthelmy
(NASA/GSFC), D.N. Burrows (PSU), S. Campana (INAF-OAB), S.B. Cenko
(NASA/GSFC), N. Gehrels (NASA/GSFC), P. Giommi (ASI), F.E. Marshall
(NASA/GSFC), J.A. Nousek (PSU), P.T. O'Brien (U. Leicester), J.P.
Osborne (U. Leicester), D.M. Palmer (LANL), M. Perri (ASDC), J.L.
Racusin (NASA/GSFC), M.H. Siegel (PSU), G. Tagliaferri (INAF-OAB)
report on behalf of the Swift team:

Swift has performed a series of 264 observations of galaxies (from the
GWGC catalogue) within the aLIGO error region for the aLIGO trigger
G211117, using the 'bayestar' GW localisation map. The observations
currently span from 140 ks to 1677 ks after the aLIGO trigger, and
cover 32.3 sq degrees on the sky (corrected for overlaps).

Since the last Swift GCN, we have detected 8 X-ray sources, these are
either new detections, or have been given a higher 'rank' than in the
last circular. Each source is assigned a rank of 1-4 which describes
how likely it is to be related to the GW trigger, with 1 being the most
likely and 4 being the least likely. The ranks are described at
http://www.swift.ac.uk/ranks.php.

We have found:

  * 0 sources of rank 1
  * 0 sources of rank 2
  * 6 sources of rank 3
  * 2 sources of rank 4

We assumed a power-law spectrum with NH=3e20 cm^2, and photon index
(Gamma)=1.7

Several other sources were circulated as GCN/LVC Counterpart notices
(including one with a rank of 2) with a flag identifying them as
potentially spurious. Manual inspection of the images confirms that
these were not point sources, but artifacts caused by an area of
diffuse X-ray emission, centred on RA~02h 32m 37s Dec~+18d 44' 10",
with a radius of ~0.6 arcmin.

RANK 3 sources
==============

These are uncatalogued X-ray sources, however they are not brighter
than previous upper limits, so do not stand out as likely counterparts
to the GW trigger.
  
  Source 56:
  =============
    RA: 	 38.0971 ( = 02h 32m 23.30s) J2000
    Dec:	 +18.5781 ( = +18d 34' 41.2") J2000
    Error:	 +5.9 (arcsec, radius, 90% confidence).
    Peak Rate:	 2.2e-03 +/- 6.4e-04 ct/sec (0.3-10 keV)
    Peak Flux:	 9.5e-14 +/- 2.7e-14 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 1.2e-01 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       so the source is not above the RASS 3-sigma upper limit.
    There is no evidence for fading.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
  
  Source 57:
  =============
    RA: 	 38.0905 ( = 02h 32m 21.72s) J2000
    Dec:	 +18.6325 ( = +18d 37' 57.0") J2000
    Error:	 +6.8 (arcsec, radius, 90% confidence).
    Peak Rate:	 3.1e-03 +/- 8.1e-04 ct/sec (0.3-10 keV)
    Peak Flux:	 1.3e-13 +/- 3.5e-14 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 1.4e-01 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       so the source is not above the RASS 3-sigma upper limit.
    There is no evidence for fading.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
  
  Source 59:
  =============
    RA: 	 38.1497 ( = 02h 32m 35.93s) J2000
    Dec:	 +18.7140 ( = +18d 42' 50.4") J2000
    Error:	 +7.6 (arcsec, radius, 90% confidence).
    Peak Rate:	 1.0e-03 +/- 4.4e-04 ct/sec (0.3-10 keV)
    Peak Flux:	 4.4e-14 +/- 1.9e-14 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 8.1e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       so the source is not above the RASS 3-sigma upper limit.
    There is no evidence for fading.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
  
  Source 61:
  =============
    RA: 	 38.2965 ( = 02h 33m 11.16s) J2000
    Dec:	 +18.5393 ( = +18d 32' 21.5") J2000
    Error:	 +11.5 (arcsec, radius, 90% confidence).
    Peak Rate:	 1.1e-03 +/- 4.6e-04 ct/sec (0.3-10 keV)
    Peak Flux:	 4.8e-14 +/- 2.0e-14 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 6.1e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       so the source is not above the RASS 3-sigma upper limit.
    There is no evidence for fading.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
  
  Source 65:
  =============
    RA: 	 38.1408 ( = 02h 32m 33.79s) J2000
    Dec:	 +18.6392 ( = +18d 38' 21.1") J2000
    Error:	 +7.6 (arcsec, radius, 90% confidence).
    Peak Rate:	 1.3e-03 +/- 5.1e-04 ct/sec (0.3-10 keV)
    Peak Flux:	 5.7e-14 +/- 2.2e-14 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 9.0e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       so the source is not above the RASS 3-sigma upper limit.
    There is no evidence for fading.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
  
  Source 67:
  =============
    RA: 	 38.0820 ( = 02h 32m 19.68s) J2000
    Dec:	 +18.7338 ( = +18d 44' 01.7") J2000
    Error:	 +5.9 (arcsec, radius, 90% confidence).
    Peak Rate:	 1.2e-03 +/- 5.1e-04 ct/sec (0.3-10 keV)
    Peak Flux:	 5.2e-14 +/- 2.2e-14 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 1.3e-01 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       so the source is not above the RASS 3-sigma upper limit.
    There is no evidence for fading.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.


RANK 4 sources
==============

These are catalogued X-ray sources, showing no signs of outburst
compared to previous observations, so they are not likely to be related
to the GW trigger.
  
  Source 63:
  =============
    RA: 	 136.1544 ( = 09h 04m 37.06s) J2000
    Dec:	 +55.5974 ( = +55d 35' 50.6") J2000
    Error:	 +6.9 (arcsec, radius, 90% confidence).
    Peak Rate:	 1.5e-01 +/- 5.9e-02 ct/sec (0.3-10 keV)
    Peak Flux:	 6.5e-12 +/- 2.5e-12 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  1SXPS J090436.8+553600 in the 1SXPS catalogue
    Separation:  10.3" from the XRT source
    Cat Rate:	 1.7e-01 +/- 4.0e-03 ct/sec (0.3-10 keV)
    Cat Flux:	 7.2e-12 +/- 1.7e-13 erg cm^-2 s^-1 (0.3-10 keV)
       so the source is not above the catalogued flux.
    There is no evidence for fading.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
    A SIMBAD object `2MASX J09043675+5535515' is 2.7" away.
    There is 1 2MASS object within the source's 3-sigma error radius.
  
  Source 64:
  =============
    RA: 	 153.7665 ( = 10h 15m 3.96s) J2000
    Dec:	 +49.4331 ( = +49d 25' 59.2") J2000
    Error:	 +5.0 (arcsec, radius, 90% confidence).
    Peak Rate:	 2.0e+00 +/- 4.4e-01 ct/sec (0.3-10 keV)
    Peak Flux:	 8.5e-11 +/- 1.9e-11 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  1SXPS J101504.1+492559 in the 1SXPS catalogue
    Separation:  1.7" from the XRT source
    Cat Rate:	 1.3e+00 +/- 7.7e-03 ct/sec (0.3-10 keV)
    Cat Flux:	 5.6e-11 +/- 3.3e-13 erg cm^-2 s^-1 (0.3-10 keV)
       so the source  is 1.5-sigma above the catalogued flux.
    There is no evidence for fading.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
    A SIMBAD object `6C 101157+494057' is 2.3" away.
    There is 1 2MASS object within the source's 3-sigma error radius.

This circular is an official product of the Swift team.

P. D'Avanzo, A. Melandri (INAF-OAB), L. Tomasella, S. Benetti, E. Cappellaro, A. Pastorello (INAF-OAPd),  E. Brocato (INAF-OAR), M. Branchesi (Urbino University/INFN Firenze), E. Pian (SNS-Pisa), L.Amati (INAF-IASF Bo), L. A. Antonelli, (INAF-OAR), P. Astone (INFN-Roma), S. Campana, S. Covino ((INAF-OAB), V. D'Elia (INAF-ASDC), F. Getman (INAF-OAC), G. Giuffrida (INAF-ASDC), A.Grado (INAF-OAC), G.Greco (Urbino University/INFN Firenze), L. Limatola (INAF-OAC), M. Lisi (INAF-OAR), S. Marinoni, P. Marrese (INAF-ASDC), L. Nicastro, E. Palazzi (INAF-IAFS Bo), S. Piranomonte, L. Pulone (INAF-OAR), F. Ricci (Sapienza University), G. Stratta (Urbino University/INFN Firenze), G. Tagliaferri (INAF-OAB), V. Testa (INAF-OAR), P. Blay (IAC/NOT, Canary Island, Spain) on behalf of the INAF Gravitational Astronomy group report:

We report the spectroscopic observation of the optical candidates reported by Smith et al. (GCN Circ. 18786
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 ) PS15dpu (aka ASASSN-15un) and PS15dou with the Nordic Optical Telescope (Canary Islands, Spain) equipped with ALFOSC (gm4, range 320-910 nm) starting on Jan 09.88 UT. 

For PS15dpu aka ASASSN-15un, we confirm the main findings of Seibert et al. 2016, Atel#8526, that the object is a very young type II SN. The spectrum shows prominent P-Cygni lines of H and He I. The ejecta velocity obtained from the position of the Halpha minimum is about 9000 km/s.

The low S/N spectrum of PS15dou is consistent with those of evolved type II SNe, showing the presence of P-Cygni H lines, Na ID, Ca II H&K and several Fe II lines. The best match is found with SN 1996L (Benetti et al. 1999, MNRAS 305, 811) around 2 month after explosion.  Classification was done with GELATO (Harutyunyan et al. 2008, A&A, 488, 383) and SNID (Blondin and Tonry 2007, ApJ, 666, 1024). 

-- 
Enzo Brocato
INAF - Osservatorio Astronomico di Roma
Via di Frascati, 33  
I-00040 Monteporzio Catone, Italy
Phone: +39 0694286438 
web page:  www.oa-roma.inaf.it/brocato
SpoT Group: www.oa-teramo.inaf.it/SPoT

The LIGO Scientific Collaboration and Virgo report:

We have completed offline calibration and re-analysis of the segment of
data containing the gravitational-wave trigger G211117, which was first
recovered on 2015-12-26 (GCN 18728
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 ).

We have calculated a revised false alarm rate based on two detection
pipelines, the PyCBC and GSTLAL offline searches for compact binary
coalescences of neutron stars and/or stellar-mass black holes. Both
pipelines estimate that G211117 is more significant (less likely to be
produced by noise) than one per hundred years.

The LIGO Scientific Collaboration and Virgo report:

We have performed a parameter estimation analysis assuming that G211117 is
a binary coalescence event with (RA,Dec) constrained to be the position of
PS15dpn (Smith et al., GCN 18786
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 ; Chambers et al., GCN 18811
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 ) and allowing
for calibration uncertainties in the LIGO detectors.  Our preliminary
analysis finds a posterior probability distribution for redshift with a
central 90% credible interval of 0.07 to 0.13.  There is almost no support
for a source at the redshift reported for PS15dpn, z=0.175 (GCN 18811
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 ;
also Cenko et al., GCN 18848
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 , measured z=0.174), although it is not entirely
ruled out.

P.A. Evans and K.L. Page (U. Leicester) report on behalf of the Swift team:

On 2016 Jan 7 at 15:54 Swift began observations of the transient PS15dpn
(Chambers et al., GCN 18811
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 ; Cenko et al., GCN 18848
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 ), collecting 4 ks
of data.

No X-ray emission was detected at the location of the source, with a
3-sigma upper limit of 2.4e-3 ct/sec, corresponding to a 0.3-10 keV flux
of 1.0e-13 erg/cm^2/s (assuming a power-law spectrum with photon index
1.7 and column density 3e20 cm^-2).

UVOT did detect PS15dpn in the uvm2 filter, at a mangitude of 19.09 �� 0.07.

A single uncatalogued X-ray source was found in our observations,
however this is below the RASS upper limit at its location, and likely
unrelated to the LIGO trigger. It has been assigned a rank of 3 under
our classification scheme described at http://www.swift.ac.uk/ranks.php.

   Source 56:
   =============
     RA:      38.0971 ( = 02h 32m 23.30s) J2000
     Dec:     +18.5781 ( = +18d 34' 41.2") J2000
     Error:     +5.9 (arcsec, radius, 90% confidence).
     Peak Rate:     2.9e-03 �� 1.1e-03 ct/sec (0.3-10 keV)
     Peak Flux:     1.3e-13 �� 4.9e-14 erg cm^-2 s^-1 (0.3-10 keV)
     RASS UL:     1.2e-01 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)
        so the source is not above the RASS 3-sigma upper limit.
     There is no evidence for fading.
     NOTE: this source is not within 200 kpc of a GWGC galaxy.

This circular is an official product of the Swift team.

[GCN OPS NOTE(10jan16): The event ID number in the Subject-line
was changed from 2111117 to 211117.]

S. B. Cenko (NASA/GSFC), M. M. Kasliwal (Caltech), L. P. Singer (NASA/GSFC), and V. Bhalerao (IUCAA) report on behalf of a larger collaboration:

We report here on P48 and Gemini observations of the transient PS15dpn (Chambers et al., GCN 18811
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 ).

PS15dpn was detected by the Palomar 48 inch telescope in R-band images obtained at 2:13 UT on 2015 December 28, with a magnitude of R = 20.8 +/- 0.2 mag.  The transient, internally dubbed iPTF15fgl, was not reported in our previous list of candidate counterparts (Cenko et al., GCN 18762
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 ) because of marginal evidence for excess flux at this location in a g-band image obtained on 2015 December 17.  Further analysis of these pre-trigger observations could not confirm this excess - thus we have no evidence for variability of this object prior to the LIGO trigger.

We obtained an optical spectrum of PS15dpn with the Gemini Multi-Object Spectrograph (GMOS) mounted on the 8 m Gemini North telescope beginning at 5:02 UT on 2016 January 6.  The source is (still) dominated by a blue continuum, with strong narrow emission lines corresponding to H-alpha and N II at a redshift of 0.174.  This is largely similar to the spectrum reported by Chambers et al. (GCN 18811
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 ), and we can confirm their tentative redshift of this source.  However, we do not see any evidence for He I lines in our spectrum.

C. Frohmaier, G. Dimitriadis, R. Firth (Southampton), E. Cappellaro (INAF, Padova)
M. Dennefeld (IAP, UPMC), C. Inserra (QUB), E. Kankare (QUB), K. Maguire, 
S. J. Smartt (QUB), K. W. Smith (QUB), M. Sullivan (Southampton), S. Valenti (UC Davis), 
O. Yaron (Weizmann), D. Young (QUB), I. Manulis (Weizmann)

Further to Lipunov et al.���s discovery of a transient by MASTER in 
ESO 138-006  which is in the localisation region of G211117
(see GCN 18835
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 ), at (RA, Dec) = 16h 54m 20.77s 
-61d 52m 58.0s on 2016-01-06.06807 UT.

PESSTO, the Public ESO Spectroscopic Survey for Transient Objects 
(see Smartt et al. 2015, A&A, 579, 40 http://www.pessto.org) 
reports a classification spectrum. The transient is a type II supernova, 
most likely a II-P, at +30d, with a redshift (z=0.018) consistent with that of the 
likely host  (ESO 138-006). 

Observations were performed on the ESO New Technology Telescope 
at La Silla on 2016 Jan 08, using EFOSC2 and Grism 13 (3985-9315A, 
18A resolution). Classifications was done with SNID (Blondin & Tonry, 2007, 
ApJ, 666, 1024) and GELATO (Harutyunyan et al., 2008, A&A, 488, 383). 
Classification spectrum can be obtained from http://www.pessto.org (via WISeREP).

Nipuni Palliyaguru (TTU) and Alessandra Corsi (TTU) report on behalf of a
larger collaboration:

We imaged the position of the Pan-STARRS transient PS15dpn (Chambers et al.
GCN 18811
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 ); RA(J2000)= 02h 32m 59.75s Dec(J2000)=+18d 38' 07.0s''), located
in the error region of LIGO/Virgo G211117 (LVC et al., GCN 18728
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 ), with the
Karl G. Jansky Very Large Array (VLA). The observations started on 08 Jan
04:11:49 UT, ended on 08 Jan 05:11:41 UT, and were carried out in C-band
(central frequency of about 6 GHz) with the VLA in its DnC configuration.
Analysis is ongoing and further observations are planned.

LIGO/Virgo G211117: Pi of the Sky observations

A. �wiek (NCBJ), A. F. �arnecki (UW), A. Mankiewicz (CFT PAS), A. Zadro�ny (NCBJ) on behalf of the Pi of the Sky

On night starting 29rd of December we started observing areas connected to G211117. Due to weather conditions, observations related to  G211117 could only start on night 29th of December. We mostly focus on imaging arc spanning from 0h - 10h. Observations are made from observatory Pi of the Sky North observatory INTA. The observations are performed using cameras with wide-band White filter. Exposition time used is 10s and we take at least 10 consecutive exposures for each field, resulting in the expected limiting brightness of 12 mag. Each exposition taken cover area of approximately plus/minus 10 deg from coordinates set on center of the frame. 

For observations related to G211117 we are using following pointings (These fields cover about 30% of the area of the alert):

1) 29.9186 -19.8295
2) 35.003 19.7683
3) 143.326 76.3277
4) 8.97431 -1.97974
5) 48.9859 -1.77356
6) 56.2522 37.8203
7) 83.2047 59.9766
8) 30.9354 -1.62311
9) 33.1534 37.7411
10) 78.3588 37.7796
11) 120.202 60.2756
12) 9.18673 -20.2795

Each image taken covers approximately 400 square degrees. We are currently analyzing taken images.

If weather permits we will continue scanning this area.

N. R. Tanvir, K. Wiersema, P. T. O'Brien, J. Osborne,
P. Evans (U. Leicester), A. J. Levan, D. Steeghs, J. Lyman (U. Warwick),
J. Fynbo, D. Malesani, J. Hjorth, D. Perley, B. Milvang-Jensen,
D. Watson (DARK/NBI), S. Fairhurst, P. Sutton (U. Cardiff),
I. Mandel (U. Birmingham), M. Irwin, C. Gonzalez-Fernandez,
R. McMahon,  E. Gonzalez-Solares (U. Cambridge), E. Pian (SNS-Pisa), 
E. Palazzi (INAF-IAFS Bo), D. White (U. Edinburgh), S. Schulze (PUC, MAS), 
Z. Cano (U. Iceland), A. de Ugarte-Postigo, C. Thoene (IAA-CSIC)
report:

We initiated a sequence of near-infrared imaging observations 
with the 4m ESO VISTA telescope at Cerro Paranal, Chile,
to map the same northern part of the reported
error region that was surveyed by VST (Grado et al.
GCN 18734
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 ). Specifically the field centres of our
sub-regions are:

02:29:55.20 +16:13:12
02:38:02.21 +19:13:12
02:46:35.71 +22:12:34
02:59:40.80 +25:13:12
03:06:55.13 +28:13:12
03:18:23.71 +31:13:12

and each sub-region is tiled to cover roughly 3x3 degrees.
We are observing in the Y, J and Ks bands, with each pixel
exposed for 60s. The observations began on 1 Jan 2016, 
but will take several more nights to complete given the short 
visibility of the fields.

Michitoshi Yoshida, Yousuke Utsumi (Hiroshima Univ.), Tomoki
Morokuma, Kentaro Motohara (Univ. of Tokyo), Masaomi Tanaka,
Fumiaki Nakata, Tsuyoshi Terai, Francois Finet (NAOJ), Nozomu
Tominaga (Konan Univ.) on behalf of J-GEM collaboration

We report optical imaging follow-up observations for a part of
the northern skymap regions of G211117 with Hyper Suprime-Cam
(HSC) attached to 8.2-m Subaru Telescope. HSC has a circular
field-of-view whose area is 1.7 deg^2.

We performed z- and i-band imaging observations on 2016-01-06 UT.
The exposure times were 60 sec and 45--50 sec for z-band and
i-band, respectively. We covered 50 deg^2 around the high
probability area in the northern skymap region of G211117 with
50 pointings of HSC. The 5-sigma limiting AB magnitudes are
about 23--23.5 mag and 23.5--24 mag for z-band and i-band,
respectively.

The observed ares are listed below.

# datetime(UT)  RA  DEC  filter  exptime
2016-01-07T10:24:04.9 04:40:57.4 +47:21:12 HSC-i 45.0
2016-01-07T10:22:45.7 04:41:08.8 +47:21:43 HSC-i 45.0
2016-01-07T10:21:25.8 04:36:06.7 +46:34:03 HSC-i 45.0
2016-01-07T10:20:06.9 04:36:17.9 +46:34:34 HSC-i 45.0
2016-01-07T10:18:49.2 04:31:25.9 +45:46:47 HSC-i 45.0
2016-01-07T10:17:28.0 04:31:37.0 +45:47:18 HSC-i 45.0
2016-01-07T10:16:10.3 04:26:54.4 +44:59:23 HSC-i 45.0
2016-01-07T10:14:52.7 04:27:05.4 +44:59:54 HSC-i 45.0
2016-01-07T10:13:31.5 04:22:31.9 +44:11:50 HSC-i 45.0
2016-01-07T10:12:12.7 04:22:42.7 +44:12:21 HSC-i 45.0
2016-01-07T10:10:54.0 04:18:17.8 +43:24:09 HSC-i 45.0
2016-01-07T10:09:33.7 04:18:28.4 +43:24:40 HSC-i 45.0
2016-01-07T10:08:16.6 04:16:37.8 +44:11:50 HSC-i 45.0
2016-01-07T10:06:55.4 04:16:48.6 +44:12:21 HSC-i 45.0
2016-01-07T10:05:37.1 04:14:11.8 +42:36:20 HSC-i 45.0
2016-01-07T10:04:20.1 04:14:22.3 +42:36:51 HSC-i 45.0
2016-01-07T10:03:03.1 04:12:29.4 +43:24:09 HSC-i 45.0
2016-01-07T10:01:42.5 04:12:40.1 +43:24:40 HSC-i 45.0
2016-01-07T10:00:25.1 04:10:13.5 +41:48:22 HSC-i 45.0
2016-01-07T09:59:04.7 04:10:23.8 +41:48:53 HSC-i 45.0
2016-01-07T09:57:47.7 04:08:28.9 +42:36:20 HSC-i 45.0
2016-01-07T09:56:29.8 04:08:39.4 +42:36:51 HSC-i 45.0
2016-01-07T09:55:12.4 04:04:36.0 +41:48:22 HSC-i 45.0
2016-01-07T09:53:55.2 04:04:46.3 +41:48:53 HSC-i 45.0
2016-01-07T09:52:37.3 04:01:47.3 +41:00:37 HSC-i 45.0
2016-01-07T09:51:19.9 04:01:57.5 +41:01:08 HSC-i 45.0
2016-01-07T09:50:02.2 03:58:58.6 +40:13:26 HSC-i 45.0
2016-01-07T09:48:44.3 03:59:08.7 +40:13:57 HSC-i 45.0
2016-01-07T09:47:27.1 03:56:09.9 +39:26:48 HSC-i 45.0
2016-01-07T09:46:09.0 03:56:19.9 +39:27:19 HSC-i 45.0
2016-01-07T09:44:51.8 03:53:21.1 +40:13:26 HSC-i 45.0
2016-01-07T09:43:29.6 03:53:31.2 +40:13:57 HSC-i 45.0
2016-01-07T09:42:12.9 03:53:21.2 +38:40:40 HSC-i 45.0
2016-01-07T09:40:55.3 03:53:31.1 +38:41:12 HSC-i 45.0
2016-01-07T09:39:37.2 03:50:32.5 +37:55:02 HSC-i 45.0
2016-01-07T09:38:20.4 03:50:42.3 +37:55:33 HSC-i 45.0
2016-01-07T09:37:02.7 03:50:32.4 +39:26:48 HSC-i 45.0
2016-01-07T09:35:44.5 03:50:42.4 +39:27:19 HSC-i 45.0
2016-01-07T09:34:19.7 03:47:43.8 +37:09:53 HSC-i 45.0
2016-01-07T09:33:02.7 03:47:53.5 +37:10:24 HSC-i 45.0
2016-01-07T09:31:45.5 03:47:43.7 +38:40:40 HSC-i 45.0
2016-01-07T09:30:27.7 03:47:53.6 +38:41:12 HSC-i 45.0
2016-01-07T09:29:09.9 03:44:55.0 +37:55:02 HSC-i 45.0
2016-01-07T09:27:53.0 03:45:04.8 +37:55:34 HSC-i 45.0
2016-01-07T09:25:55.2 02:43:03.3 +21:22:40 HSC-i 45.0
2016-01-07T09:24:37.0 02:43:11.6 +21:23:11 HSC-i 45.0
2016-01-07T09:23:18.8 02:45:52.0 +22:01:12 HSC-i 45.0
2016-01-07T09:22:01.7 02:46:00.3 +22:01:43 HSC-i 45.0
2016-01-07T09:20:44.1 02:48:40.7 +22:39:55 HSC-i 45.0
2016-01-07T09:19:24.5 02:48:49.1 +22:40:26 HSC-i 45.0
2016-01-07T09:18:04.2 02:51:29.4 +23:18:49 HSC-i 45.0
2016-01-07T09:16:47.2 02:51:37.9 +23:19:20 HSC-i 45.0
2016-01-07T09:15:29.9 02:54:18.2 +23:57:55 HSC-i 45.0
2016-01-07T09:14:11.0 02:54:26.6 +23:58:26 HSC-i 45.0
2016-01-07T09:12:50.7 02:54:18.1 +25:16:42 HSC-i 45.0
2016-01-07T09:11:30.7 02:54:26.7 +25:17:13 HSC-i 45.0
2016-01-07T09:10:12.7 02:57:06.9 +24:37:12 HSC-i 45.0
2016-01-07T09:08:54.8 02:57:15.4 +24:37:43 HSC-i 45.0
2016-01-07T09:07:37.1 02:57:06.9 +25:56:25 HSC-i 45.0
2016-01-07T09:06:17.6 02:57:15.4 +25:56:56 HSC-i 45.0
2016-01-07T09:04:58.1 02:59:55.6 +26:36:21 HSC-i 45.0
2016-01-07T09:03:40.7 03:00:04.2 +26:36:52 HSC-i 45.0
2016-01-07T09:02:22.2 02:59:55.6 +25:16:42 HSC-i 45.0
2016-01-07T09:01:04.9 03:00:04.2 +25:17:13 HSC-i 45.0
2016-01-07T08:59:47.6 03:02:44.3 +27:16:31 HSC-i 45.0
2016-01-07T08:58:29.5 03:02:53.0 +27:17:02 HSC-i 45.0
2016-01-07T08:57:10.5 03:02:44.4 +25:56:25 HSC-i 45.0
2016-01-07T08:55:53.8 03:02:52.9 +25:56:56 HSC-i 45.0
2016-01-07T08:54:36.9 03:05:33.0 +27:56:56 HSC-i 45.0
2016-01-07T08:53:19.1 03:05:41.8 +27:57:27 HSC-i 45.0
2016-01-07T08:52:02.3 03:05:33.1 +26:36:21 HSC-i 45.0
2016-01-07T08:50:45.7 03:05:41.7 +26:36:52 HSC-i 45.0
2016-01-07T08:49:28.8 03:08:21.8 +28:37:36 HSC-i 45.0
2016-01-07T08:48:09.5 03:08:30.6 +28:38:07 HSC-i 45.0
2016-01-07T08:46:50.0 03:11:10.5 +29:18:32 HSC-i 45.0
2016-01-07T08:45:33.7 03:11:19.3 +29:19:03 HSC-i 45.0
2016-01-07T08:44:16.8 03:13:59.2 +29:59:44 HSC-i 45.0
2016-01-07T08:42:57.3 03:14:08.1 +30:00:16 HSC-i 45.0
2016-01-07T08:41:17.4 03:22:25.3 +33:30:21 HSC-i 45.0
2016-01-07T08:40:00.3 03:22:34.5 +33:30:52 HSC-i 45.0
2016-01-07T08:38:33.9 03:16:47.9 +30:41:14 HSC-i 50.0
2016-01-07T08:37:11.5 03:16:56.9 +30:41:45 HSC-i 50.0
2016-01-07T08:35:15.4 03:42:06.3 +37:09:52 HSC-i 50.0
2016-01-07T08:33:53.1 03:42:16.0 +37:10:24 HSC-i 50.0
2016-01-07T08:31:49.1 03:19:36.6 +31:23:02 HSC-i 50.0
2016-01-07T08:30:26.3 03:19:45.7 +31:23:33 HSC-i 50.0
2016-01-07T08:29:03.3 03:22:25.3 +32:05:08 HSC-i 50.0
2016-01-07T08:27:41.7 03:22:34.5 +32:05:39 HSC-i 50.0
2016-01-07T08:26:19.6 03:25:14.1 +32:47:34 HSC-i 50.0
2016-01-07T08:24:56.4 03:25:23.2 +32:48:05 HSC-i 50.0
2016-01-07T08:22:53.2 03:39:17.6 +36:25:09 HSC-i 50.0
2016-01-07T08:21:30.9 03:39:27.2 +36:25:40 HSC-i 50.0
2016-01-07T08:19:34.2 03:28:02.8 +33:30:21 HSC-i 50.0
2016-01-07T08:18:12.1 03:28:12.0 +33:30:52 HSC-i 50.0
2016-01-07T08:16:50.1 03:30:51.5 +34:13:28 HSC-i 50.0
2016-01-07T08:15:23.8 03:31:00.8 +34:13:59 HSC-i 50.0
2016-01-07T08:14:01.7 03:36:28.9 +35:40:52 HSC-i 50.0
2016-01-07T08:12:37.4 03:36:38.4 +35:41:23 HSC-i 50.0
2016-01-07T08:11:10.5 03:33:40.2 +34:56:58 HSC-i 50.0
2016-01-07T08:09:48.7 03:33:49.6 +34:57:29 HSC-i 50.0
2016-01-07T07:37:39.2 02:43:03.3 +21:22:39 HSC-z 60.0
2016-01-07T07:36:06.1 02:43:11.6 +21:23:11 HSC-z 60.0
2016-01-07T07:34:32.4 02:45:52.0 +22:01:12 HSC-z 60.0
2016-01-07T07:32:59.8 02:46:00.3 +22:01:43 HSC-z 60.0
2016-01-07T07:31:27.7 02:48:40.7 +22:39:55 HSC-z 60.0
2016-01-07T07:29:54.8 02:48:49.1 +22:40:26 HSC-z 60.0
2016-01-07T07:28:22.5 02:51:29.4 +23:18:49 HSC-z 60.0
2016-01-07T07:26:50.8 02:51:37.9 +23:19:20 HSC-z 60.0
2016-01-07T07:25:17.8 02:54:18.2 +23:57:55 HSC-z 60.0
2016-01-07T07:23:45.0 02:54:26.6 +23:58:26 HSC-z 60.0
2016-01-07T07:22:12.6 02:54:18.1 +25:16:42 HSC-z 60.0
2016-01-07T07:20:39.9 02:54:26.7 +25:17:13 HSC-z 60.0
2016-01-07T07:19:06.7 02:57:06.9 +24:37:12 HSC-z 60.0
2016-01-07T07:17:35.1 02:57:15.4 +24:37:43 HSC-z 60.0
2016-01-07T07:15:58.3 02:57:06.9 +25:56:25 HSC-z 60.0
2016-01-07T07:14:26.3 02:57:15.4 +25:56:56 HSC-z 60.0
2016-01-07T07:12:11.1 03:16:47.9 +30:41:14 HSC-z 60.0
2016-01-07T07:10:37.4 03:16:56.9 +30:41:45 HSC-z 60.0
2016-01-07T07:08:20.8 03:42:06.3 +37:09:52 HSC-z 60.0
2016-01-07T07:06:48.7 03:42:16.0 +37:10:24 HSC-z 60.0
2016-01-07T07:04:30.3 03:19:36.6 +31:23:02 HSC-z 60.0
2016-01-07T07:02:58.4 03:19:45.7 +31:23:33 HSC-z 60.0
2016-01-07T07:01:26.4 03:22:25.3 +32:05:08 HSC-z 60.0
2016-01-07T06:59:52.6 03:22:34.5 +32:05:39 HSC-z 60.0
2016-01-07T06:58:18.9 03:25:14.1 +32:47:34 HSC-z 60.0
2016-01-07T06:56:45.3 03:25:23.2 +32:48:05 HSC-z 60.0
2016-01-07T06:54:42.7 03:39:17.6 +36:25:09 HSC-z 60.0
2016-01-07T06:53:10.3 03:39:27.2 +36:25:40 HSC-z 60.0
2016-01-07T06:51:05.6 03:28:02.8 +33:30:21 HSC-z 60.0
2016-01-07T06:49:32.8 03:28:12.0 +33:30:52 HSC-z 60.0
2016-01-07T06:48:01.3 03:30:51.5 +34:13:28 HSC-z 60.0
2016-01-07T06:46:23.9 03:31:00.8 +34:13:59 HSC-z 60.0
2016-01-07T06:44:51.8 03:36:28.9 +35:40:52 HSC-z 60.0
2016-01-07T06:43:19.1 03:36:38.4 +35:41:23 HSC-z 60.0
2016-01-07T06:41:46.4 03:33:40.2 +34:56:58 HSC-z 60.0
2016-01-07T06:40:14.5 03:33:49.6 +34:57:29 HSC-z 60.0
2016-01-07T06:38:03.5 04:40:57.4 +47:21:12 HSC-z 60.0
2016-01-07T06:36:23.0 04:41:08.8 +47:21:43 HSC-z 60.0
2016-01-07T06:34:51.1 04:36:06.7 +46:34:03 HSC-z 60.0
2016-01-07T06:33:19.2 04:36:17.9 +46:34:34 HSC-z 60.0
2016-01-07T06:31:45.8 04:31:25.9 +45:46:47 HSC-z 60.0
2016-01-07T06:30:12.9 04:31:37.0 +45:47:18 HSC-z 60.0
2016-01-07T06:28:40.4 04:26:54.4 +44:59:22 HSC-z 60.0
2016-01-07T06:27:08.3 04:27:05.4 +44:59:54 HSC-z 60.0
2016-01-07T06:25:36.0 04:22:31.9 +44:11:50 HSC-z 60.0
2016-01-07T06:24:03.2 04:22:42.7 +44:12:21 HSC-z 60.0
2016-01-07T06:22:29.7 04:18:17.8 +43:24:09 HSC-z 60.0
2016-01-07T06:20:58.4 04:18:28.5 +43:24:40 HSC-z 60.0
2016-01-07T06:19:17.3 04:16:37.8 +44:11:50 HSC-z 60.0
2016-01-07T06:17:44.4 04:16:48.6 +44:12:21 HSC-z 60.0
2016-01-07T06:16:09.9 04:14:11.8 +42:36:20 HSC-z 60.0
2016-01-07T06:14:38.4 04:14:22.3 +42:36:51 HSC-z 60.0
2016-01-07T06:13:05.3 04:12:29.4 +43:24:09 HSC-z 60.0
2016-01-07T06:11:31.3 04:12:40.1 +43:24:40 HSC-z 60.0
2016-01-07T06:09:52.1 04:10:13.5 +41:48:22 HSC-z 60.0
2016-01-07T06:08:19.6 04:10:23.8 +41:48:53 HSC-z 60.0
2016-01-07T06:06:46.2 04:08:28.9 +42:36:20 HSC-z 60.0
2016-01-07T06:05:12.9 04:08:39.4 +42:36:51 HSC-z 60.0
2016-01-07T06:03:40.6 04:04:36.0 +41:48:22 HSC-z 60.0
2016-01-07T06:02:08.0 04:04:46.3 +41:48:53 HSC-z 60.0
2016-01-07T06:00:35.4 04:01:47.3 +41:00:37 HSC-z 60.0
2016-01-07T05:59:01.4 04:01:57.5 +41:01:08 HSC-z 60.0
2016-01-07T05:57:29.8 03:58:58.6 +40:13:26 HSC-z 60.0
2016-01-07T05:55:58.0 03:59:08.7 +40:13:57 HSC-z 60.0
2016-01-07T05:54:25.0 03:56:09.9 +39:26:48 HSC-z 60.0
2016-01-07T05:52:52.3 03:56:19.9 +39:27:19 HSC-z 60.0
2016-01-07T05:51:20.6 03:53:21.1 +40:13:26 HSC-z 60.0
2016-01-07T05:49:48.5 03:53:31.2 +40:13:57 HSC-z 60.0
2016-01-07T05:48:15.7 03:53:21.2 +38:40:40 HSC-z 60.0
2016-01-07T05:46:43.5 03:53:31.1 +38:41:12 HSC-z 60.0
2016-01-07T05:45:11.9 03:50:32.5 +37:55:02 HSC-z 60.0
2016-01-07T05:43:39.4 03:50:42.3 +37:55:33 HSC-z 60.0
2016-01-07T05:42:07.1 03:50:32.4 +39:26:48 HSC-z 60.0
2016-01-07T05:40:33.7 03:50:42.4 +39:27:19 HSC-z 60.0
2016-01-07T05:39:02.1 03:47:43.8 +37:09:53 HSC-z 60.0
2016-01-07T05:37:30.7 03:47:53.5 +37:10:24 HSC-z 60.0
2016-01-07T05:35:57.1 03:47:43.7 +38:40:40 HSC-z 60.0
2016-01-07T05:34:23.9 03:47:53.6 +38:41:12 HSC-z 60.0
2016-01-07T05:32:52.3 03:44:55.0 +37:55:02 HSC-z 60.0
2016-01-07T05:31:20.4 03:45:04.8 +37:55:33 HSC-z 60.0
2016-01-07T05:29:09.5 02:59:55.6 +26:36:21 HSC-z 60.0
2016-01-07T05:27:37.0 03:00:04.2 +26:36:52 HSC-z 60.0
2016-01-07T05:26:02.7 02:59:55.6 +25:16:42 HSC-z 60.0
2016-01-07T05:24:25.8 03:00:04.2 +25:17:13 HSC-z 60.0
2016-01-07T05:22:19.8 03:02:44.3 +27:16:31 HSC-z 60.0
2016-01-07T05:20:47.7 03:02:53.0 +27:17:02 HSC-z 60.0
2016-01-07T05:19:15.3 03:02:44.4 +25:56:25 HSC-z 60.0
2016-01-07T05:17:43.7 03:02:53.0 +25:56:56 HSC-z 60.0
2016-01-07T05:16:09.3 03:05:33.0 +27:56:56 HSC-z 60.0
2016-01-07T05:14:36.2 03:05:41.8 +27:57:27 HSC-z 60.0
2016-01-07T05:13:02.9 03:05:33.1 +26:36:21 HSC-z 60.0
2016-01-07T05:11:30.9 03:05:41.7 +26:36:52 HSC-z 60.0
2016-01-07T05:09:56.0 03:08:21.8 +28:37:36 HSC-z 60.0
2016-01-07T05:08:21.3 03:08:30.6 +28:38:07 HSC-z 60.0
2016-01-07T05:06:49.9 03:11:10.5 +29:18:32 HSC-z 60.0
2016-01-07T05:05:16.2 03:11:19.3 +29:19:03 HSC-z 60.0
2016-01-07T05:03:43.6 03:13:59.2 +29:59:45 HSC-z 60.0
2016-01-07T05:02:11.3 03:14:08.1 +30:00:15 HSC-z 60.0
2016-01-07T05:00:35.3 03:22:25.3 +33:30:21 HSC-z 60.0
2016-01-07T04:59:03.6 03:22:34.5 +33:30:52 HSC-z 60.0

V. Lipunov, E. Gorbovskoy, N.Tyurina
Lomonosov Moscow State University, Sternberg Astronomical Institute

D.Buckley, S. Potter, M. Kotze, South African Astronomical Observatory
behalf of the MASTER collaboration.


We  continue the inspection of the  northern and southern segments 
of the LIGO/Virgo G2111170 event. We found one PSN in southern segment 
last night.

MASTER-SAAO auto-detection system discovered OT source at (RA, Dec) = 16h 
54m 20.77s -61d 52m 58.0s on 2016-01-06.06807 UT.
The OT unfiltered magnitude is 16.9m (limit 19.7m).
The OT is seen in 10 images. There is no minor planet at this place.
We have reference image without OT on 2015-07-15.88669 UT with unfiltered 
magnitude limit 20.1m.
OT has offset is about 9.1E and 9.9N arcsecs from center of the 
ESO0138-006 galaxy.
The distance  d ~= 64 Mpc.

Spectral observations are required.

The discovery and reference images are available at:

http://master.sai.msu.ru/static/OT/165420.77-615258.0.png

This circular can be cited.

P.A. Evans (U. Leicester), J.A. Kennea (PSU), S.D. Barthelmy
(NASA/GSFC), D.N. Burrows (PSU), S. Campana (INAF-OAB), S.B. Cenko
(NASA/GSFC), N. Gehrels (NASA/GSFC), P. Giommi (ASI), F.E. Marshall
(NASA/GSFC), J.A. Nousek (PSU), P.T. O'Brien (U. Leicester), J.P.
Osborne (U. Leicester), D.M. Palmer (LANL), M. Perri (ASDC), J.L.
Racusin (NASA/GSFC), M.H. Siegel (PSU), G. Tagliaferri (INAF-OAB)
report on behalf of the Swift team:

Swift has performed a series of 76 observations of galaxies (from the
GWGC catalogue) within the aLIGO error region for the aLIGO trigger
G211117, using the 'bayestar' GW localisation map. The observations
currently span from 140 ks to 914 ks after the aLIGO trigger, and cover
8.6 sq degrees on the sky (corrected for overlaps).

Since the last Swift GCN, we have detected 2 X-ray sources, these are
either new detections, or have been given a higher 'rank' than in the
last circular. Each source is assigned a rank of 1-4 which describes
how likely it is to be related to the GW trigger, with 1 being the most
likely and 4 being the least likely. The ranks are described at
http://www.swift.ac.uk/ranks.php.

We have found:

  * 0 sources of rank 1
  * 0 sources of rank 2
  * 1 source of rank 3
  * 1 source of rank 4

In addition, we observed the location of the source PS15dqa (from
Smartt et al., GCN Circ. 18824
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 ), an optical transient in NGC 1156 at a
distance of just 7 Mpc. No X-ray emission was detected at the location
of PS15dqa to a 3-sigma upper limit of 4.1e-3 ct/sec, corresponding to
a flux of 1.8e-13 erg/cm^2/s.

We assumed a power-law spectrum with NH=3e20 cm^2, and photon index
(Gamma)=1.7


RANK 3 sources
==============

These are uncatalogued X-ray sources, however they are not brighter
than previous upper limits, so do not stand out as likely counterparts
to the GW trigger.
  
  Source 53:
  =============
    RA: 	 44.9257 ( = 02h 59m 42.17s) J2000
    Dec:	 +25.2129 ( = +25d 12' 46.4") J2000
    Error:	 +5.8 (arcsec, radius, 90% confidence).
    Peak Rate:	 1.5e-03 +/- 7.9e-04 ct/sec (0.3-10 keV)
    Peak Flux:	 6.3e-14 +/- 3.4e-14 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 3.0e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       so the source is not above the RASS 3-sigma upper limit.
    There is no evidence for fading.
    There is 1 GWGC galaxy within 200 kpc of the source.


RANK 4 sources
==============

These are catalogued X-ray sources, showing no signs of outburst
compared to previous observations, so they are not likely to be related
to the GW trigger.
  
  Source 54:
  =============
    RA: 	 202.5319 ( = 13h 30m 7.66s) J2000
    Dec:	 -20.9364 ( = -20d 56' 11.0") J2000
    Error:	 +6.0 (arcsec, radius, 90% confidence).
    Peak Rate:	 2.0e-02 +/- 7.3e-03 ct/sec (0.3-10 keV)
    Peak Flux:	 8.5e-13 +/- 3.1e-13 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  1SXPS J133007.7-205619 in the 1SXPS catalogue
    Separation:  8.4" from the XRT source
    Cat Rate:	 1.6e-02 +/- 1.6e-03 ct/sec (0.3-10 keV)
    Cat Flux:	 6.8e-13 +/- 6.9e-14 erg cm^-2 s^-1 (0.3-10 keV)
       so the source  is 0.5-sigma above the catalogued flux.
    There is no evidence for fading.
    There is 1 GWGC galaxy within 200 kpc of the source.
    A SIMBAD object `[RKV2003] QSO J1330-2056 abs 0.84992' is 5.3"
away.
    There is 1 2MASS object within the source's 3-sigma error radius.

This circular is an official product of the Swift team.

We report the following spectroscopic observations and classifications
of two of the EM candidates reported by Cenko et al. in GCN 18762
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 . All
observations were obtained using the 2.0 metre Liverpool Telescope, La
Palma by C.M. Copperwheat, I.A. Steele & A. Piascik (Liverpool JMU) on
behalf of a wider collaboration.

iPTF-15ffm was observed with the SPRAT spectrograph on 2016-01-03 at
19:49UT. Using SNID (Blondin & Tonry, 2007, ApJ, 666, 1024) we
classify this transient as a type Ia supernova with z = 0.098 at 30
days after peak.

iPTF-15fhd was observed with the SPRAT spectrograph on 2016-01-03 at
21:02UT.  Using SNID we classify this transient as a type Ia supernova
with z = 0.088 at 13 days after peak.

S. Smartt ((Queen���s University Belfast), K. C. Chambers, (IfA, University of Hawaii),
T.-W. Chen (MPE),K. Smith, D. Wright (QUB) , M. E. Huber, A. S. B. Schultz (IfA),
M. Coughlin (Harvard), L. Denneau, H. Flewelling, A. Heinze, R. Kotak (QUB),
E. A. Magnier, N. Primak, A. Rest (STScI),  A. Sherstyuk (IfA), B. Stalder (IfA),
C. W. Stubbs (Harvard), J. Tonry, C. Waters (IfA),  D. Young (QUB)

Further to Smith et al. (GCN 18811
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 ), Chambers et al. (18786), Frohmaier et al. (18806)
we report three further spectra from Gemini and a full summary of targets from all
spectra, cross-matching and Pan-STARRS data now available. Targets are
summarised as likely extragalactic transients, stellar variables, and AGN/QSO variables below. 

Three targets were observed with Gemini GMOS (GN-2015B-Q-4, PI. K. Chambers), 
with the R400 grating (4900-8000Angs) on 2016-01-01
PS15don is a type Ia,  z=0.16, at peak,
PS15doy is a type Ia,  z=0.19, probably 1991T-like at one weak post peak
PS15dpe is a type Ia, z=0.057 at about 10 days after peak. 
Hence all of these exploded well before G211117, and as apparently normal Ia SNe 
are unrelated. 

The only unusual target to date is PS15dpn (see Chambers et al. GCN 18811
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 ). 

Summary table of extragalactic transients (30) :
Name        RA (J2000)   Dec (J2000)  Disc. Date   Disc. MJD  Disc Mag
PS15dcq     03 22 55.83  +34 59 23.6  20151228.29  57384.29    19.99 (1) iPTF15fgy, SN Ia
PS15dov     03 43 57.36  +39 17 43.7  20151228.32  57384.32    19.73 SN II, GMOS
PS15dot     02 11 55.69  +13 28 17.8  20151228.34  57384.34    20.97 SN II,  GMOS
PS15coh     02 15 58.45  +12 14 13.6  20151228.34  57384.34    17.72 (2) ASASSN-15rw (SN Ia)
PS15dow     02 19 42.20  +14 09 54.7  20151228.34  57384.34    20.22 SN Ib, GMOS
PS15csf     02 26 02.24  +17 03 40.4  20151228.35  57384.35    18.68 (2) MASTER OT J022037.36+170217.5, LSQ15bwe (old)
PS15dom     02 34 45.62  +18 20 37.7  20151228.35  57384.35    19.01 (2) PSNJ02344555+1820390, iPTF15fdv (old)
PS15don     02 37 11.44  +19 03 20.2  20151228.35  57384.35    20.47 SN Ia, GMOS
PS15dox     02 40 15.05  +22 32 12.1  20151228.38  57384.38    19.23 SN Ia, PESSTO
PS15doy     02 47 54.16  +21 46 24.0  20151228.38  57384.38    20.75 SN Ia, GMOS
PS15dpq     03 09 12.74  +27 31 16.9  20151228.39  57384.39    18.84 SN Ia, PESSTO (iPTF15fel)
PS15dpa     02 57 56.02  +28 53 37.1  20151228.40  57384.40    19.51 SN Ia, PESSTO
PS15dpe     05 44 42.66  +52 24 57.9  20151228.43  57384.43    19.44 SN Ia, GMOS
PS15dpl     05 47 45.39  +53 36 32.4  20151228.43  57384.43    19.34 SN Ia GMOS
PS15dpn     02 32 59.75  +18 38 07.0  20151229.23  57385.23    20.69 see GCN 18811
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PS15dpf     02 49 32.57  +21 47 09.4  20151229.24  57385.24    20.69
PS15doz     02 53 41.68  +27 29 57.8  20151229.25  57385.25    20.69
PS15dpc     03 55 46.16  +38 52 49.6  20151229.27  57385.27    20.95 SN II, GMOS
PS15dqc     05 51 13.43  +52 28 18.7  20151229.29  57385.29    21.16
PS15cvo     02 20 37.39  +17 02 17.9  20151229.31  57385.31    20.45 (2) MASTER and PSST detections in Nov 2015
PS15dpz     02 40 33.01  +23 00 10.8  20151229.32  57385.32    21.15
PS15dpb     03 42 23.40  +39 14 40.4  20151229.36  57385.36    20.20 SN II, GMOS
PS15dou     06 03 38.73  +54 41 12.1  20151229.56  57385.56    20.20
PS15dpx     06 04 35.54  +53 35 25.8  20151229.56  57385.56    20.76
PS15dpt     02 07 34.96  +11 03 25.2  20151230.22  57386.22    20.64
PS15dpy     02 28 22.75  +13 59 19.3  20151230.22  57386.22    21.31
PS15dpu     02 40 41.35  +16 49 52.0  20151230.22  57386.22    17.26 ASASSN-15un (3), spectrum scheduled on LT
PS15dqa     02 59 41.20  +25 14 12.2  20151230.24  57386.24    20.93 in NGC1156 at 7Mpc (GCN18811
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 )
PS15dqe     06 05 26.88  +54 09 11.3  20151230.37  57386.37    21.51
PS16bp      03 05 29.46  +24 46 05.0  20160102.39  57389.39    17.45 spectrum scheduled on LT

Notes 
(1) Old SN from PSST (GCN. 18811) Observed by Copperwheat et al. (GCN18807
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 ), type Ia at 16d after peak.
(2) Old SNe known before G211118
(3) ASASSN-15un : discovered on 2015-12-28.22 by Masi et al. (ATel 8470)
not yet classified. In Mrk 1182, d=119 Mpc. Spectrum now scheduled on LT.

On closer inspection of multi-epoch Pan-STARRS data and the reference images,
we find that the following previously reported transients from Smith et al. (GCN18786
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 )
are most likely not extragalactic transients :  one is a slow mover (not a recorded minor planet)
and 12 are most likely faint stellar variables (including 2 already report as stellar in GCN 18786
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 )

Slow mover :
PS15dpr     03 16 12.16  +31 04 01.3  20151229.46  57385.46    19.78

Likely stellar variables : these objects either are close to the Galactic plane
(l,b coordinates given below), and/or do not have detections spanning multiple
nights.
Name        RA (J2000)   Dec (J2000)  Disc. Date   Disc. MJD  Disc Mag   l   b
PS15dpm     06 19 54.15  +54 18 10.3  20151229.56  57385.56    20.48  160.2 17.4
PS15dpv     03 40 02.91  +36 07 52.2  20151230.43  57386.43    20.93  157.1 -15.3
PS15dps     03 22 31.49  +34 36 36.6  20151229.43  57385.43    20.41  155.1 -18.6
PS15dpk     05 09 35.10  +50 09 08.7  20151229.38  57385.38    19.66  158.5 6.0
PS15dpj     05 08 12.38  +51 37 10.2  20151228.44  57384.44    18.45  157.2 6.7
PS15dpd     05 09 58.63  +50 47 09.4  20151228.44  57384.44    20.34  158.0 6.4
PS15dpw     04 10 16.52  +43 35 22.8  20151230.27  57386.27    19.29  156.7 -5.9
PS15dpg     03 17 18.88  +32 20 06.9  20151229.41  57385.41    20.86  155.5 -21.1
PS15dph     03 24 15.04  +30 56 20.1  20151229.46  57385.46    20.17  157.7 -21.4
PS15dpi     03 36 41.65  +35 57 56.4  20151228.52  57384.52    17.62 RR Lyrae; CSS J033641.5+355756
PS15dpp     03 00 39.86  +28 15 25.4  20151228.40  57384.40    20.63  154.7 -26.5
PS15dqb     03 28 34.85  +31 59 08.2  20151230.43  57386.43    19.93  157.8  -20.0 

The following two transients are probable faint AGN/QSO (as previously reported in 
Smith et al. GCN 18786
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 )
PS15dop     03 17 29.58  +29 34 09.2  20151228.40  57384.40    20.01 probable AGN
PS15dpo     02 59 49.56  +25 10 30.4  20151229.25  57385.25    20.55 probable AGN/QSO

P. D'Avanzo, A. Melandri (INAF-OAB),  E. Brocato (INAF-OAR), M. Branchesi (Urbino University/INFN Firenze), E. Cappellaro (INAF-OAPd), L.Amati (INAF-IASF Bo), L. A. Antonelli, (INAF-OAR), P. Astone (INFN-Roma), S. Campana, S. Covino ((INAF-OAB), V. D'Elia (INAF-ASDC), F. Getman (INAF-OAC), G. Giuffrida (INAF-ASDC), A.Grado (INAF-OAC), G.Greco (Urbino University/INFN Firenze), L. Limatola (INAF-OAC), M. Lisi (INAF-OAR), S. Marinoni, P. Marrese (INAF-ASDC), L. Nicastro, E. Palazzi (INAF-IAFS Bo), E. Pian (SNS-Pisa), S. Piranomonte, L. Pulone (INAF-OAR), F. Ricci (Sapienza University), G. Stratta (Urbino University/INFN Firenze), G. Tagliaferri (INAF-OAB), V. Testa (INAF-OAR), L. Tomasella (INAF-OAPd), V. Lorenzi, A. Garcia de Gurtubai Escudero (INAF-TNG) on behalf of the INAF Gravitational Astronomy group and M. Yoshida (HASC, Hiroshima Univ.) on behalf of the J-GEM collaboration report: 

We observed the field of the optical/NIR candidate reported by Itoh et al. (GCN Circ. 18742
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 ) with the 3.6m Italian TNG telescope (Canary Islands, Spain), equipped with the DOLORES camera in imaging mode starting on 2015 Dec 29.9292 UT. 

No object is detected at the reported position of this optical/NIR candidate down to a 3sigma limiting magnitude i~23 (AB; calibrated against SDSS stars in the field). A bright (i~17.6 AB mag) object, not present in the SDSS, is detected at RA, Dec (J2000): 01:56:23.75, +04:33:48.1.
As suggested by Cenko et al. (GCN Circ. 18762
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 ) our findings are consistent with this object and the optical/NIR candidate reported by Itoh et al. (GCN Circ. 18742
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 ) being the minor planet 2606 Odessa. 

We acknowledge the use of the Minor Planet Center Ephemeris Service.

G. Vianello (Stanford), M. Razzano (Univ. of Pisa), N. Omodei (Stanford),
J. Racusin (NASA/GSFC), J. McEnery, (NASA/GSFC), M. Briggs (UAH), E. Burns
(UAH), V. Connaughton (USRA), A. Goldstein (NASA/MSFC), P. Jenke (UAH), C.
Wilson-Hodge (NASA/MSFC), B. Zhang (UAH)


We report on the search for a gamma-ray counterpart for the LIGO/VIRGO
candidate G211117 in the data of the Fermi Large Area Telescope. Our search
covered the regions of the LIGO/VIRGO "Bayestar" sky map having a
probability greater than 90%.

We performed a search for a gamma-ray counterpart above 100 MeV on two time
intervals: a) from -100 s to 1000 s after the GW trigger, and b) from -100
s to 10000 s after the trigger. Time scale "a" is the typical time scale
for a search for short GRBs, while the second time scale is more typical
for long GRBs.

At the time of the GW trigger Fermi was operating in normal survey mode.
During the time interval "a" around half of the North region and almost all
the South region were inside the LAT FoV at some point. During the time
interval "b" both regions were covered in their entirety. A counts map of
the full sky relative to this second interval can be seen at:

https://gracedb.ligo.org/apiweb/events/G211117/files/fermi_sky_map.png

We found no significant excess above a significance of 3 sigma post-trial.

The Fermi-LAT is a pair conversion telescope designed to cover the energy
band from 20 MeV to greater than 300 GeV. It is the product of an
international collaboration between NASA and DOE in the U.S. and many
scientific institutions across France, Italy, Japan and Sweden.

We report the following spectroscopic observations and classifications
of two of the EM candidates reported by Cenko et al. in GCN 18762
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 . All
observations were obtained using the 2.0 metre Liverpool Telescope, La
Palma by C.M. Copperwheat & I.A. Steele (Liverpool JMU) on behalf of a
wider collaboration.

iPTF-15ffh was observed with the SPRAT spectrograph on 2016-01-02 at
19:29UT. We previously observed this target in twilight and did not
detect the transient (GCN18791
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 ). The spectrum we obtained in this
second visit does not contain any obvious features, and a visual
inspection offers no clear classification. However, SNID (Blondin &
Tonry, 2007, ApJ, 666, 1024) provides a classification of a type Ia
supernova with z = 0.076 -/+ 0.007 at 22.2 days after peak. This
redshift is consistent with the spectroscopic redshift of the assumed
host galaxy (0.06857).

iPTF-15fhp was observed with the SPRAT spectrograph on 2016-01-02 at
23:31UT. In GCN18807
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  we reported a previous epoch of observation for
this transient in which we obtained a poor quality spectrum which SNID
classified as a type Ia supernova approximately one week before peak.
In this second visit the brightness of the target has not increased,
and so we would rule out this initial tentative classification. Again,
a classification is not obvious from a visual inspection of this
second epoch, but SNID reports this object is a type Ia supernova with
z=0.130 -/+ 0.007 at 4.1 days after peak.


-- 
------------------------------------------------------
C.M.Copperwheat
Astrophysics Research Institute,
Liverpool John Moores University
------------------------------------------------------
http://telescope.livjm.ac.uk
------------------------------------------------------
Email: c.m.copperwheat@ljmu.ac.uk
Tel: +44 (0)151 231 2914
Fax: +44 (0)151 231 2921
------------------------------------------------------

K. C. Chambers, (IfA, University of Hawaii), T.-W. Chen (MPE), S. Smartt 
K. Smith, D. Wright, (Queen���s University Belfast), M. E. Huber, A. S. B. Schultz (IfA),
M. Coughlin (Harvard), L. Denneau, H. Flewelling, A. Heinze, R. Kotak (QUB),
E. A. Magnier, N. Primak, A. Rest (STScI),  A. Sherstyuk (IfA), B. Stalder (IfA),
C. W. Stubbs (Harvard), J. Tonry, C. Waters (IfA),  D. Young (QUB)

Further to GCN 18786
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 , we report spectroscopic classification of 7
of the Pan-STARRS transients within the northern localisation region
of G211117. Spectra were taken with GMOS on the Gemini North 8m
telescope (program GN-2015B-Q-4, PI. K. Chambers), with the R150
grating, filter GG455, and 1 arcsec slit giving useful wavelength
coverage 5000-9600 Angs. Typical exposure times were 600s, and the
spectra are of high quality (S/N 20-100). The data were taken on
the nights of 2015-12-30 and 2015-12-31 (with the MJDs of the
exposures given in parentheses below)

PS15dpn (57387.23)
Has a very blue continuum, with three weak (but real) emission line
features. These are tentatively identified as He I 5015.68, 5875.60
and H-alpha at z=0.175, although this is by no means certain as
two of them coincide with the strong telluric absorptions. The
transient was discovered on our first scan of the region on
2015-12-28 and is still rising, slowly (0.6 mag in 4 days, now
at i=19.9). This is an unusual spectrum and further
multi-wavelength observations are encouraged. Further spectra
are planned by our team.

PS15dow (57387.21): type Ib  (z=0.05 +/- 0.01) at +9 (SN1999ex) to +30d
(SN2008D) after maximum light. Therefore, explosion at least 20-40d 
before the GW trigger

PS15dpc (57387.26): type II z=0.056, +15-25d after explosion.
Therefore explosion 10-29d before the GW trigger.

PS15dpl (57387.40): type  Ia (z=0.03 +0.05/-0.015), at -8 to -11d before
peak. Assuming 17+/-1 days for rise time of type Ia SNe, this suggests
explosion 2015-12-21 to 2015-12-26. Which brackets the GW detection,
within the uncertainties. However as an apparently normal SN Ia, it
would appear unrelated.

PS15dot (57386.30) : type II at z=0.149 (host galaxy redshift). The
epoch is uncertain, but likely to be 10 to 20days after explosion.
This is a bright type II at M_i ~ -18.5, but likely to have exploded 10
days before the GW detection.

PS15dov (57386.32) : type II in UGC2836 (z=0.016702 host redshift). Fairly old
and reddened type II, with prominent P-Cygni lines of H-alpha and
Ca II. Likely more than 50 days old. Only 4-5 arcsec separation
from the recorded coordinates (NED and CBET) for SN203ih and SN2001I.
Exploded long before the GW trigger.

PS15dpb (57386.43) :  type II in UGC2828 (z=0.041045 host redshift).Fairly old
type II, around 20-30 days after explosion. Therefore, a likely
explosion epoch around 15-25d before G211117.

J. Broderick (ASTRON), A. Rowlinson (UvA, ASTRON), P.G. Jonker
(SRON/RU), R.P. Fender (Oxford), R.A.M.J. Wijers (UvA), B.W. Stappers
(Manchester), S. ter Veen (ASTRON), S. Ghosh (RU), A. Shulevski
(ASTRON) report on behalf of the LOFAR Transients Key Science project

On Jan 1, 2016, starting at 11:32 (UTC), we observed a large fraction
of the localization error range of the Advanced LIGO trigger G211117
with the ILT (International Low-Frequency Array [LOFAR] Telescope).
This is the first set of LOFAR observations of these fields. The
fields will be revisited two times with the same exposures, on
provisional time-scales of 1 and 3 months from now. The observations
were obtained with the High-Band Antennas (HBA) at a centre frequency
of 145 MHz (bandwidth 15.6 MHz). We used 6 simultaneous beams on the
sky, where each beam has a field of view of approximately 12 deg^2
(beam FWHM 3.9 degrees). The beam centres are given below:

Pointing 1 (starting at 11:32 UTC and 15:32 UTC)
1) 39.750000 19.433333 02:39:00.00 +19:26:00.0
2) 37.478042 19.814500 02:29:54.73 +19:48:52.2
3) 39.056375 21.630111 02:36:13.53 +21:37:48.4
4) 40.443625 17.236556 02:41:46.47 +17:14:11.6
5) 42.021958 19.052167 02:48:05.27 +19:03:07.8
6) 37.817000 17.209667 02:31:16.08 +17:12:34.8

Pointing 2 (starting at 12:02 UTC and 16:02 UTC)
1) 43.523458 24.012694 02:54:05.63 +24:00:45.7
2) 41.204125 24.163000 02:44:48.99 +24:09:46.8
3) 42.663792 26.172056 02:50:39.31 +26:10:19.4
4) 44.383125 21.853333 02:57:31.95 +21:51:12.0
5) 45.842792 23.862389 03:03:22.27 +23:51:44.6
6) 41.683000 21.657000 02:46:43.92 +21:39:25.2

Pointing 3 (starting at 12:32 UTC and 16:32 UTC)
1) 47.347500 28.815800 03:09:23.40 +28:48:56.9
2) 45.035000 29.249472 03:00:08.40 +29:14:58.1
3) 46.833417 31.111750 03:07:20.02 +31:06:42.3
4) 47.861583 26.519861 03:11:26.78 +26:31:11.5
5) 49.660000 28.382139 03:18:38.40 +28:22:55.7
6) 45.311208 26.473306 03:01:14.69 +26:28:23.9

Pointing 4 (starting at 13:02 UTC and 17:02 UTC)
1) 51.762750 33.469417 03:27:03.06 +33:28:09.9
2) 49.412000 33.897167 03:17:38.88 +33:53:49.8
3) 51.335000 35.820194 03:25:20.40 +35:49:12.7
4) 52.190500 31.118639 03:28:45.72 +31:07:07.1
5) 54.113500 33.041667 03:36:27.24 +33:02:30.0
6) 49.550083 31.096639 03:18:12.02 +31:05:47.9

Pointing 5 (starting at 13:32 UTC and 17:32 UTC)
1) 56.818083 37.934167 03:47:16.34 +37:56:03.0
2) 54.463958 38.555972 03:37:51.35 +38:33:21.5
3) 56.699333 40.366111 03:46:47.84 +40:21:58.0
4) 56.936833 35.502222 03:47:44.84 +35:30:08.0
5) 59.172208 37.312361 03:56:41.33 +37:18:44.5
6) 54.117958 35.824611 03:36:28.31 +35:49:28.6

Pointing 6 (starting at 14:02 UTC and 18:02 UTC)
1) 62.380833 42.438778 04:09:31.40 +42:26:19.6
2) 60.036333 43.290528 04:00:08.72 +43:17:25.9
3) 62.643042 44.919389 04:10:34.33 +44:55:09.8
4) 62.118625 39.958167 04:08:28.47 +39:57:29.4
5) 64.725333 41.587028 04:18:54.08 +41:35:13.3
6) 59.555833 40.151139 03:58:13.40 +40:09:04.1

Pointing 7 (starting at 14:32 UTC and 18:32 UTC)
1) 68.908792 46.437806 04:35:38.11 +46:26:16.1
2) 66.516750 47.358250 04:26:04.02 +47:21:29.7
3) 69.395792 48.954111 04:37:34.99 +48:57:14.8
4) 68.421792 43.921500 04:33:41.23 +43:55:17.4
5) 71.300833 45.517361 04:45:12.20 +45:31:02.5
6) 65.573417 44.433722 04:22:17.62 +44:26:01.4

Pointing 8 (starting at 15:02 UTC and 19:02 UTC)
1) 76.256792 50.093972 05:05:01.63 +50:05:38.3
2) 73.881750 51.253417 04:55:31.62 +51:15:12.3
3) 77.159833 52.577833 05:08:38.36 +52:34:40.2
4) 75.353750 47.610111 05:01:24.90 +47:36:36.4
5) 78.631833 48.934528 05:14:31.64 +48:56:04.3
6) 72.434875 48.392333 04:49:44.37 +48:23:32.4

The observations cover roughly 200 square degrees in total.  Each
field was observed for a total of 53 min (2 x 26.5 min) with 10s time
resolution after pre-processing.

Analysis is ongoing.

We report the following spectroscopic observations and classifications
of a number of the EM candidates reported by Cenko et al. in GCN
18762
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 . All observations were obtained using the 2.0 metre Liverpool
Telescope, La Palma by C.M. Copperwheat & I.A. Steele (Liverpool JMU)
on behalf of a wider collaboration.

iPTF-15fhp was observed with the SPRAT spectrograph on 2016-01-01 at
00:58UT. The spectrum was of quite poor quality and SNID (Blondin &
Tonry, 2007, ApJ, 666, 1024) provides a tentative classification of a
type Ia supernova approximately one week before peak. We have
scheduled a second observation to test this classification.

iPTF-15ffz was observed with the SPRAT spectrograph on 2016-01-01 at
19:26UT. A number of emission lines are observed: including OII,
H-beta and H-alpha with a common redshift of 0.070. This is consistent
with the SDSS photometric redshift of the proposed host galaxy
(z=0.075). We believe this target to be an AGN.

iPTF-15fed was observed with the SPRAT spectrograph on 2016-01-01 at
20:03UT. We do not see a point source distinct from the galactic
emission in our acquisition image, however we estimate the limiting
magnitude of this image is R~19.1, compared to the transient magnitude
of 19.9 reported by iPTF. The spectrum we obtain is dominated by
emission from the host galaxy.

iPTF-15fib was observed with the SPRAT spectrograph on 2016-01-01 at
20:39UT. We do not detect an object at those coordinates in our
acquisition image. We estimate the limiting magnitude of this image is
R~19.5, which is the same as the transient magnitude reported by iPTF.
The spectrum we obtained was blank. Possibly this object has faded.

iPTF-15ffk was observed with the SPRAT spectrograph on 2016-01-01 at
21:16UT. Classification using SNID indicates the transient is a type
Ia supernova with z = 0.108 -/+ 0.005 at 6.9 days past peak. This
redshift is consistent with the SDSS photometric redshift of the
proposed host galaxy (z=0.11).

iPTF-15fgy was observed with the SPRAT spectrograph on 2016-01-01 at
21:55UT. Classification using SNID indicates the transient is a type
Ia supernova with z = 0.072 -/+ 0.006 at 16.8 days past peak.

C. Frohmaier, G. Dimitriadis, R. Firth,(Southampton), 
S. J. Smartt, K. W. Smith, D. Young, D. Wright,  (QUB), E. Cappellaro (INAF, Padova) 
K. C. Chambers, M. E. Huber, A. S. B. Schultz (IfA, University of Hawaii), 
M. Coughlin (Harvard), L. Denneau, H. Flewelling, A. Heinze, R. Kotak (QUB),
E. A. Magnier, N. Primak, A. Rest (STScI),  A. Sherstyuk (IfA), B. Stalder (IfA), 
C. W. Stubbs (Harvard), J. Tonry, C. Waters (IfA)
J. Anderson (ESO),  K. Maguire (QUB), I. Manulis (Weizmann), C. Inserra (QUB),
E. Kankare (QUB), M. Sullivan (Southampton), S. Valenti (UC Davis), 
O. Yaron (Weizmann), 

Further to the Pan-STARRS discovery of 44 transients in the northern 
localisation region of G211117 (Smith et al. GCN 18786
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 ), PESSTO, 
the Public ESO Spectroscopic Survey for Transient Objects 
(see Smartt et al. 2015, A&A, 579, 40 http://www.pessto.org) 
reports the following supernova classifications. 

All observations were performed on the ESO New Technology Telescope 
at La Silla on 2015 December 31, using EFOSC2 and Grism 13 (3985-9315A, 1
8A resolution). Classifications were done with SNID (Blondin & Tonry, 2007, 
ApJ, 666, 1024) and GELATO (Harutyunyan et al., 2008, A&A, 488, 383). 
Classification spectra can be obtained from http://www.pessto.org (via WISeREP).

Name     RA (J2000)   Dec (J2000)  Disc. Date   Disc Mag  z      Type  Phase   
PS15dox  02:40:15.04  +22:32:12.1  2015-12-28   19.23     0.080   Ia   +10   
PS15dpa  02:57:56.02  +28:53:37.1  2015-12-28   19.51     0.079   Ia   +9    
PS15dpq  03:09:12.75  +27:31:16.9  2015-12-28   18.84     0.038   Ia   +40  (91T-like)

V. Lipunov, E. Gorbovskoy, N.Tyurina, V.Kornilov, P.Balanutsa, A.Kuznetsov 
Lomonosov Moscow State University, Sternberg Astronomical Institute

D.Buckley, S. Potter, M. Kotze South African Astronomical Observatory

R. Rebolo, M. Serra-Ricart, G. Israelian, N.Lodiu
The Instituto de Astrofisica de Canarias

A. Tlatov, V.Sennik
Kislovodsk Solar Station of the Pulkovo Observatory

N.M. Budnev, O. Gress, K. Ivanov
Irkutsk State University

V.Yurkov, Yu.Sergienko, A.Gabovich
Blagoveschensk Educational State University, Blagoveschensk


We covered northern and small part of the southern segment of 
LIGO/Virgo G211117 (~ 77.8% of the total probability and 99.3% of 
the Northen segment)) by MASTER-IAC, MASTER-SAAO, MASTER-Amur, 
MASTER-Tunka and MASTER-Kislovodsk) several times.

The covering map is available at
  http://master.sai.msu.ru/static/OT/G211117_master2.png

The map of image limits is available at
   http://master.sai.msu.ru/static/OT/G211117.png

Below you can find the results of the week observations possible 
Gravitational 
Wave Burst LIGO/Virgo G211117 by MASTER Global Net:


1). MASTER OT J020906.21+013800.1  - possible OT in PGC Galaxy.

  Lipunov et al.,  GCN #18729
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    https://gw-astronomy.org/circs/18729.lvc3
  D'Avanzo et al., GCN #18775
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    https://gw-astronomy.org/circs/18775.lvc3
  I.Steele         GCN #18782
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    https://gw-astronomy.org/circs/18782.lvc3

2). MASTER OT J034313.67+320044.9  - 19.0m   flare young star is 
not connected with LIGO/Virgo G211117 event.

MASTER-IAC auto-detection system discovered OT source at (RA, Dec) = 03h 43m 
13.67s +32d 00m 44.9s on 2015-12-29.94159 UT.
The discovery and reference images are available at:
http://master.sai.msu.ru/static/OT/034313.67320044.9.png

3). MASTER OT J025756.02+285337.6  (PS15dpa, Smit et al., GCN 18786
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 ) - 
19.5 mag PSN in SDSS9 galaxy

MASTER-IAC auto-detection system discovered OT source at (RA, Dec) = 02h 57m 
56.02s +28d 53m 37.6s on 2015-12-31.97184 UT.
The OT unfiltered magnitude is 19.5m (limit 20.3m).
The OT is seen in 9 images.
We have reference image without OT on 2015-11-09.06204 UT with unfiltered 
magnitude limit 20.6m. There are 3 SDSS9 galaxies:

     J025756.06+285337.9 galaxy with offset 0.7 arcsec.
     J025756.14+285339.5 galaxy with offset 2.5 arcsec.
     J025755.75+285339.7 galaxy with offset 4.1 arcsec.

Spectral observations are required. But its seems very far for Gravitational 
Wave Source.

The discovery and reference images are available at:
http://master.sai.msu.ru/static/OT/025756.02285337.6.png

4). MASTER OT J150113.71-734333.8 discovery - bright (14.5) high amplitude 
(>7.5mag) outburst. Dwarf Nova?

MASTER-SAAO auto-detection system 
(http://www.astronomerstelegram.org/?read=8472 ) discovered OT source at (RA, 
Dec) = 15h 01m 13.71s -73d 43m 33.8s on 2015-12-25.016 UT. The OT unfiltered 
magnitude is 14.5m (the limit was 18.0m).

5). MASTER OT J142741.38-330531.7 discovery - 14.9 flare BLAZAR with 
Gamma-ray 
counterpart  2 hours before  trigger ( 
http://www.astronomerstelegram.org/?read=8472 )

MASTER-SAAO auto-detection system discovered OT source at (RA, Dec) = 14h 27m 
41.38s -33d 05m 31.7s on 2015-12-26.07199 UT.
The OT unfiltered magnitude is 14.9m (limit 17.7m).
We have reference image without OT on 2015-01-19.07569 UT with unfiltered 
magnitude limit 19.4m.

The discovery and reference images are available at:

http://master.sai.msu.ru/static/OT/142741.38-330531.7_1.png


6.) MASTER OT J012034.47-042003.6 possible  detection - 19.8 posible OT in 
SDSS9 galaxy, but its very far for GWB.

MASTER-IAC auto-detection system discovered OT source at (RA, Dec) = 01h 20m 
34.47s -04d 20m 03.6s on 2016-01-01.86469 UT.
The OT unfiltered magnitude is 19.8m (limit 20.5m).

The OT is seen in 2 images. There is no minor planet at this place.

We have reference image without OT on 2015-09-14.17252 UT with unfiltered 
magnitude limit 21.2m.
There is SDSS9 J012034.29-042001.9 galaxy with 3 arc sec offset.

Spectral observations are required.
The discovery and reference images are available at:

http://master.sai.msu.ru/static/OT/012034.47-042003.6.png


7). MASTER OT J201539.32-693614.7 - Dwarf Nova (no coonection with GWB).

MASTER-SAAO auto-detection system discovered OT source at (RA, Dec) = 20h 
15m 39.32s -69d 36m 14.7s on 2016-01-01.79416 UT.
The OT unfiltered magnitude is 17.9m (limit 19.5m).


We have reference image without OT on 2016-01-01.78390 UT with unfiltered 
magnitude limit 18.6m.

Spectral observations are required.

The discovery and reference images are available at:

http://master.sai.msu.ru/static/OT/201539.32-693614.7.png

The map of our OTs is vailable at
    http://master.sai.msu.ru/static/OT/G211117.png


THis circular can be cited.

A.A. Mahabal, S.G. Djorgovski, A.J. Drake, M.J. Graham (Caltech), E.J. Christensen, D.C. Fuls, A.R. Gibbs, A.D. Grauer, J.A. Johnson, R.A. Kowalski, S.M. Larson, G.J. Leonard, R.G. Matheny, R.L. Seaman, F.C. Shelly (LPL).

CSS/CRTS observed the following fields using 0.7m Schmidt telescope with 2.8x2.8 sq. degrees FOV with the standard cadence of 4 30-second images 10 minutes apart and did not find any outstanding EM-counterpart candidates to 19.5 mag (2.6-sigma). UT times mentioned below are of the first image of the sequence of 4. Total area covered is approximately 112 sq. degrees.

Field	       RA (deg)	      Dec (deg) Date/Time (UT)
���������������������������������������������������������������������������������������
N26014   41.8963   26.8111 20151230 07:32:08.8
N29014   43.0087   29.6333 20151230 07:31:25.5
N26015   44.9996   26.8111 20151230 07:29:59.1
N29015   46.1946   29.6333 20151229 03:31:29.2
N32015   47.4542   32.4556 20151229 03:30:46.0
N35015   49.2450   35.2778 20151229 03:30:02.8
N29016   49.3804   29.6333 20151229 03:29:19.6
N38015   50.6796   38.1000 20151229 03:28:34.0
N32016   50.7271   32.4556 20151229 03:27:50.7
N35016   52.6412   35.2778 20151229 03:26:24.2
N38016   54.1746   38.1000 20151229 03:24:57.8
N35017   56.0375   35.2778 20151230 07:29:14.8
N38017   57.6696   38.1000 20151230 07:28:31.6
N40017   59.9996   40.9222 20151230 07:27:05.1
���������������������������������������������������������������������������������������

D. Rabinowitz, C. Baltay, N. Ellman (Yale), P. Nugent (LBNL)

The La Silla-QUEST survey operating the 10-sq-deg QUEST camera on the 
1.0m ESO Schmidt at La Silla, Chile is continuing coverage begun 2015 
Dec 28 of the ~90% confidence area for LVC event G21117 between Dec +27 
and -13 deg.  Two new candidates have been detected with high 
confidence, verified from observations made Dec 30

LSQ Desig   V-mag    RA (deg)  Dec (deg)   JD
__________________________________________________________
LSQ15bwe    19.2 36.509181 17.06122 2457386.6243
LSQ15bwd    17.0 39.661939 16.61666 2457386.6243

LSQ15bwe appears as a likely supernova 0.22 arcmin north-west of galaxy 
2MASX J02260249+1703274i. The brightness has not changed significantly 
between 2015 Dec 28 and 30, indicating a likely onset prior to the 
G21117 event.

LSQ15bdw is coincident with QSO [HB89] 0235+164 which has readshift z = 
0.85. The source  brightened from V = 18.2 to 17.6 between 2015 Dec 28 
and 30 and is 1.5 to 2.0 mags brighter than its appearance in previous 
epochs (2012, 2013, 2014).

In GCN 18782
Loading...
 
  we reported spectroscopic follow-up observations of a
number of the EM candidates reported by Cenko et al. in GCN 18762
Loading...
 
 . We
now provide the following classifications using these data. All
observations were obtained using the 2.0 metre Liverpool Telescope, La
Palma by C.M. Copperwheat & I.A. Steele (Liverpool JMU) on behalf of a
wider collaboration.


iPTF-15ffi was observed with the SPRAT spectrograph on 2015-12-30 at
19:43UT. Classification using SNID (Blondin & Tonry, 2007, ApJ, 666,
1024) indicates the transient is a type Ia supernova with z = 0.073
-/+ 0.004 at 9.5 days past peak. This redshift is consistent with the
SDSS photometric redshift of the proposed host galaxy (z=0.079).

iPTF-15fel was observed with the SPRAT spectrograph on 2015-12-30 at
20:20UT. Classification using SNID indicates the transient is a type
Ia supernova with z = 0.042 -/+ 0.005 at 35.6 days past peak. This
redshift is consistent with the SDSS photometric redshift of the
proposed host galaxy (z=0.049).

iPTF-15fhq was observed with the SPRAT spectrograph on 2015-12-30 at
21:22UT. The spectrum shows a number of emission lines, and we believe
this source is most likely an AGN.

iPTF-15fev was observed with the SPRAT spectrograph on 2015-12-30 at
21:55UT. Classification using SNID indicates the transient is a type
Ia supernova with z = 0.020 -/+ 0.002 at 53.1 days past peak. This
redshift is consistent with the SDSS photometric redshift of the
proposed host galaxy (z=0.018).

iPTF-15fhl was observed with the SPRAT spectrograph on 2015-12-31 at
02:48UT. We detect a narrow emission line on top of the host galaxy
spectrum, which is at a wavelength consistent with H-alpha at the
proposed host galaxy redshift (z=0.044).

iPTF-15ffh was observed with the SPRAT spectrograph on 2015-12-30 at
19:04UT. These data were obtained in twilight and are of poorer
quality, and the spectrum we obtain appears to be dominated by the
host galaxy.

G. Hosseinzadeh, I. Arcavi, D. A. Howell, C. McCully (LCOGT/UCSB), and S.
Valenti (UC Davis) report the classification of the EM candidate
SMTJ13331687-1607330 (GCN 18771
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 ) associated with gravitational wave event
G211117 (GCN 18728
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 ) based on a spectrum obtained 2015 December 31.6 UT with
the robotic FLOYDS instrument mounted on the Faulkes Telescope North. SNID
(Blondin & Tonry 2007, ApJ, 666, 1024) gives good fits to several normal
Type Ia supernovae around two weeks after maximum light at redshifts
consistent with that of the proposed host galaxy (z=0.020; Catinella,
Haynes, & Giovanelli 2005, AJ, 130, 1037 via NED). Since the LIGO trigger
occurred less than six days earlier on 2015 December 26.2,
SMTJ13331687-1607330 is likely unassociated with the gravitational wave
event.

P. Garnavich (Notre Dame) reports:

R. Pogge (OSU), J. Turner (UVa), and B. Rothberg (LBTO) obtained LBT/MODS
imaging of iPTF15fhq (Cenko et al., GCN 18762
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 ), at 06:23:25.937
+57:11:51.19 (J2000).
Images were taken in the r-band filter with the MODS instrument in
acquisition mode
on 2015 Dec. 31.25 (UT) in 1.0 arcsec seeing (FWHM).

A pair of interacting galaxies (VII Zw 70) is seen with the transient
expected near the northern galaxy. No transient with a stellar PSF is
detected
in the LBT image to a magnitude limit of approximately r=21 mag.
Further imaging is needed to decide if the galaxy core could be the source
of
the variability.

Note that a spectrum of this candidate (possibly centered on the
galaxy core) was obtained with the Liverpool Telescope (Steele &
Copperwheat,
GCN 18782
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 ) on 2015 Dec 30.9 (UT).

K. Smith, S. Smartt D. Wright, (Queen���s University Belfast), K. C. Chambers,
M. E. Huber, A. S. B. Schultz (IfA, University of Hawaii), M. Coughlin (Harvard), L. Denneau,
H. Flewelling, A. Heinze, R. Kotak (QUB), E. A. Magnier, N. Primak, A. Rest (STScI),  
A. Sherstyuk (IfA), B. Stalder (IfA), C. W. Stubbs (Harvard), J. Tonry, C. Waters (IfA),  
D. Young (QUB)


Following our report of Pan-STARRS observations of the northern arc,
(Chambers et al. GCN 18735
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 ), we report the following transients. All objects
were identified in difference imaging with respect to the Pan-STARRS
3Pi all sky i-band image (see Magnier et al. 2013, ApJS 205, 20 ;
Huber et al. 2015,  ATel 7153) and standard filtering procedures combined with
machine learning (Wright et al. 2015, MNRAS, 449, 451). We have removed obvious
moving objects, variable star and AGN/QSO candidates as far as possible through
cross-matching with known catalogues and the MPC. Further refined cross-matches are noted
below. The rest are transients which are not obviously associated with a single
star or a galaxy core. 

All magnitudes are in the Pan-STARRS i-band (AB mags), and the discovery
date is UTC. Targets are sorted by time of discovery.  Approximately 10-15
of the brighter targets are queued for observing with Gemini, Magellan, PESSTO,
and the Liverpool Telescope. Pan-STARRS has observed the field
as noted in (Chambers et al. GCN 18735
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 ) on three nights from
(20151228, 20151229, 20151230) and plans another 5 epochs between
now and 2016 01 25.

Some more specific notes 

(1)  this was reported as iPTF15fgy Cenko et al. (GCN 18762
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 )
but we have a detection 24 days previously on 57360 by PSST (Huber et al. 2015).
(2) discovered as PSNJ02344555+1820390 before the G211117 trigger
(3) Lipunov et al.  (GCN 18768
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 ) report iPTF15fel as being visible in MASTER
images more than 40 days before the G211117 trigger
(4) Faint transient, or more likely variable, in NGC1156 which is a very nearby
galaxy (7Mpc). At M_i = -9, this is most likely an LBV or S-Doradus type variability
of a massive star and indeed the candidate is coincident with a bright, stellar
knot.

We welcome notification of other cross-matches that we may have omitted, or
duplications that we may have missed.

Name        RA (J2000)   Dec (J2000)  Disc. Date   Disc. MJD  Disc Mag
PS15dcq     03 22 55.83  +34 59 23.6  20151228.29  57384.29    19.99 (1) iPTF15fgy
PS15dov     03 43 57.36  +39 17 43.7  20151228.32  57384.32    19.73 4.2��� from SN2003ih
PS15dot     02 11 55.69  +13 28 17.8  20151228.34  57384.34    20.97
PS15coh     02 15 58.45  +12 14 13.6  20151228.34  57384.34    17.72 ASASSN-15rw, iPTF15fev
PS15dow     02 19 42.20  +14 09 54.7  20151228.34  57384.34    20.22
PS15csf     02 26 02.24  +17 03 40.4  20151228.35  57384.35    18.68 MASTER OT J022037.36+170217.5
PS15dom     02 34 45.62  +18 20 37.7  20151228.35  57384.35    19.01 (2) PSNJ02344555+1820390, iPTF15fdv
PS15don     02 37 11.44  +19 03 20.2  20151228.35  57384.35    20.47
PS15dox     02 40 15.05  +22 32 12.1  20151228.38  57384.38    19.23
PS15doy     02 47 54.16  +21 46 24.0  20151228.38  57384.38    20.75
PS15dpq     03 09 12.74  +27 31 16.9  20151228.39  57384.39    18.84 (3) iPTF15fel
PS15dpa     02 57 56.02  +28 53 37.1  20151228.40  57384.40    19.51
PS15dpp     03 00 39.86  +28 15 25.4  20151228.40  57384.40    20.63 likely stellar
PS15dop     03 17 29.58  +29 34 09.2  20151228.40  57384.40    20.01 probable AGN
PS15dpe     05 44 42.66  +52 24 57.9  20151228.43  57384.43    19.44
PS15dpl     05 47 45.39  +53 36 32.4  20151228.43  57384.43    19.34
PS15dpj     05 08 12.38  +51 37 10.2  20151228.44  57384.44    18.45
PS15dpd     05 09 58.63  +50 47 09.4  20151228.44  57384.44    20.34
PS15dpi     03 36 41.65  +35 57 56.4  20151228.52  57384.52    17.62 RR Lyrae; CSS J033641.5+355756
PS15dpn     02 32 59.75  +18 38 07.0  20151229.23  57385.23    20.69
PS15dpf     02 49 32.57  +21 47 09.4  20151229.24  57385.24    20.69
PS15doz     02 53 41.68  +27 29 57.8  20151229.25  57385.25    20.69
PS15dpo     02 59 49.56  +25 10 30.4  20151229.25  57385.25    20.55 probable AGN/QSO
PS15dpc     03 55 46.16  +38 52 49.6  20151229.27  57385.27    20.95
PS15dqc     05 51 13.43  +52 28 18.7  20151229.29  57385.29    21.16
PS15dpz     02 40 33.01  +23 00 10.8  20151229.32  57385.32    21.15
PS15dpb     03 42 23.40  +39 14 40.4  20151229.36  57385.36    20.20
PS15dpk     05 09 35.10  +50 09 08.7  20151229.38  57385.38    19.66
PS15dpg     03 17 18.88  +32 20 06.9  20151229.41  57385.41    20.86
PS15dps     03 22 31.49  +34 36 36.6  20151229.43  57385.43    20.41
PS15dpr     03 16 12.16  +31 04 01.3  20151229.46  57385.46    19.78
PS15dph     03 24 15.04  +30 56 20.1  20151229.46  57385.46    20.17
PS15dou     06 03 38.73  +54 41 12.1  20151229.56  57385.56    20.20
PS15dpx     06 04 35.54  +53 35 25.8  20151229.56  57385.56    20.76
PS15dpm     06 19 54.15  +54 18 10.3  20151229.56  57385.56    20.48
PS15dpt     02 07 34.96  +11 03 25.2  20151230.22  57386.22    20.64
PS15dpy     02 28 22.75  +13 59 19.3  20151230.22  57386.22    21.31
PS15dpu     02 40 41.35  +16 49 52.0  20151230.22  57386.22    17.26 ASASSN-15un
PS15dqa     02 59 41.20  +25 14 12.2  20151230.24  57386.24    20.93 (4) in NGC1156 (7Mpc)
PS15dpw     04 10 16.52  +43 35 22.8  20151230.27  57386.27    19.29
PS15dqd     05 56 14.60  +52 51 55.2  20151230.37  57386.37    19.92
PS15dqe     06 05 26.88  +54 09 11.3  20151230.37  57386.37    21.51
PS15dqb     03 28 34.85  +31 59 08.2  20151230.43  57386.43    19.93
PS15dpv     03 40 02.91  +36 07 52.2  20151230.43  57386.43    20.93

H. Negoro (Nihon U.), M. Serino (RIKEN), N. Kawai (Tokyo Tech),
S. Ueno, H. Tomida, S. Nakahira, M. Ishikawa, Y. E. Nakagawa (JAXA), 
T. Mihara, M. Sugizaki, M. Shidatsu, J. Sugimoto, T. Takagi, 
M. Matsuoka (RIKEN), M. Arimoto, T. Yoshii, Y. Tachibana, Y. Ono, 
T. Fujiwara (Tokyo Tech), A. Yoshida, T. Sakamoto, Y. Kawakubo, 
H. Ohtsuki (AGU), H. Tsunemi, R.Imatani (Osaka U.), 
M. Nakajima, K. Tanaka, T. Masumitsu (Nihon U.), 
Y. Ueda, T. Kawamuro, T. Hori, A. Tanimoto (Kyoto U.), 
Y. Tsuboi, S. Kanetou, Y. Nakamura, R. Sasaki (Chuo U.), 
M. Yamauchi, D. Itoh, K. Furuya (Miyazaki U.), 
K. Yamaoka (Nagoya U.), M. Morii (ISM)
report on behalf of the MAXI team:

We examined the MAXI/GSC all-sky X-ray images (2-10 keV) obtained
in the orbits immediately preceding and following the LVC trigger
G211117 at 2015-12-26T03:38:53 UTC (Singer et al. GCN 18728
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 ).

In each of the 92-min orbits, MAXI/GSC scanned more than 80% 
of the whole sky, which includes approximately half of the 
high-significance regions in the bayestar skymap.
No significant new source was found in these scans.

The upper limits for the X-ray flux are different depending 
on the part of the sky.
For instance, the 2-10 keV 1-sigma upper limits obtained at the center 
of the OT source region (Lipunov et al. GCN 18729
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 ) are 
26 mCrab at 03:32 and 22 mCrab at 05:04 on December 26.

I.A. Steele & C.M. Copperwheat (Liverpool JMU) report the following
observations of EM candidates associated with G211117. ��All
observations were obtained using the 2.0 metre Liverpool Telescope,
La Palma.

Master OTJ020906 (GCN 18729
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 ) was observed with the IO:O imaging camera
in the R band with exposure time 150 seconds on 2015-12-28 at 21:00UT. ��
The transient could not be distinguished by eye from the host galaxy to an��
approximate limiting magnitude of R~20 with respect to USNO objects in the image.

The reported transient in galacy UGC1410 (GCN 18742
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 ) was observed with��
the acquisition camera of the SPRAT spectrograph on 2015-12-29 at
19:48UT. ��No source was visible in the 10 second white light acquisition images��
at the reported coordinates - we note the report from iPTF that this��
is likely a solar system object (GCN 18762
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 ).

LSQ15BVW (GCN 18759
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 ) was observed with the SPRAT spectrograph on 2015-12-29 at
23:20UT. ��No source was apparent at the reported coordinates in the
10 second white light acqusition images to a limiting magnitude of R~19.5 with respect to
USNO objects in the image.

iPTF-15ffh (GCN 18762
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 ) was observed with the SPRAT spectrograph on
2015-12-30 at 19:04UT. ��A spectrum was obtained and classification is
underway.

iPTF-15ffi (GCN 18762
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 ) was observed with the SPRAT spectrograph on
2015-12-30 at 19:43UT. ��A spectrum was obtained and classification is��
underway. ��

iPTF-15fel (GCN 18762
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 ) was observed with the SPRAT spectrograph on
2015-12-30 at 20:20UT. ��A spectrum was obtained and classification is
underway. ��

iPTF-15fhq (GCN 18762
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 ) was observed with the SPRAT spectrograph on
2015-12-30 at 21:22UT. ��A spectrum was obtained and classification is
underway.

iPTF-15fev (GCN 18762
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 ) was ovserved with the SPRAT spectrograpg on
2015-12-30 at 21:55UT. ��A spectrum was obtained and classification is
underway.

iPTF-15fhl (GCN 18762
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 ) was observed with the SPRAT spectrograoph on
2015-12-31 at 02:48UT. ��A spectrum was obtained and classification is
underway.

DisclaimerNone

Nipuni Palliyaguru (TTU) and Alessandra Corsi (TTU) report on behalf of a
larger collaboration:

We imaged the position of the iPTF transient 15fhl (Cenko et al. GCN 18762
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 );
RA(J2000)=12h 28m 13.60s Dec(J2000)=+17d 37��� 01.4''), located in the error
region of LIGO/Virgo G211117 (LVC et al., GCN 18728
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 ), with the Karl G.
Jansky
Very Large Array (VLA). The observations started on 30 Dec 10:28:35 UT,
ended
on 30 Dec 11:28:15 UT, and were carried out in C-band (central frequency of
about 6 GHz) with the VLA in its D configuration. Analysis is ongoing and
further observations are planned.

P. Garnavich (Notre Dame) reports:

R. Pogge (OSU), J. Turner (UVa), and B. Rothberg (LBTO) obtained LBT/MODS
spectra of iPTF15fen (Cenko et al., GCN 18762
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 ), the "hostless" candidate
at 03:21:37.544 +31:27:08.1 (J2000). Spectra were taken 2015 Dec. 31.1 (UT)
and cover 330 nm to 1.0 microns.

The r-band acquisition image shows an unresolved source at the position of
the iPTF transient. The red Digitized Sky Survey (DSS) image from 1992
also shows this source.

The combined spectrum reveals a blue continuum with broad and
extremely weak absorption features. The clearest features
correspond to Balmer absorption lines of H-beta, H-gamma,
and H-delta at low velocity. The source is likely a
hydrogen-rich accretion disk in outburst.

iPTF15fen is probably a Galactic dwarf nova or a nova-like
cataclysmic variable. No narrow emission is detected at the
center of the Balmer absorption features as often seen in
outbursting disks, but this may be due to the low signal-to-noise
ratio of these features.

Angelo Antonelli (INAF-OaR), Alessandro Carosi (INAF-OaR), Barbara de Lotto (Univ. Udine), Razmik Mirzoyan (MPI-M��enchen) and Antonio Stamerra (INAF-OaTo and SNS-Pisa) on behalf of the MAGIC collaboration

The MAGIC system of Cherenkov Telescopes, sensitive to high-energy gamma-ray above ~50 GeV, performed observations of 4 regions in the strip of the bayestar GW map for the trigger G211117.
Observations started on  December 28,  21 UT. Each observation covers a region of ~2.5x2.5 deg. Analysis is on-going.
The list of targets is the following:

Target 1:  PGC1200980 (OT MASTER GCN#18729
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 )
RA,Dec (J2000):  02:09:05.8,  +01:38:03.0
Duration: 42 min

Target 2: strip from GW map
RA,Dec (J2000):  02:38:38.93, +16:36:59.27
Duration: 56 min (moonlight conditions)

Target 3: Field VST (GCN#18734
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 )
RA,Dec (J2000):  02:38:02.208,  +19:13:12.00
Duration: 28 min (moonlight conditions)

Target 4: Field VST (GCN#18734
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 )
RA,Dec (J2000):  03:18:23.712,  +31:13:12.00
Duration: 30 min (moonlight conditions)

MAGIC is a system of two 17m-diameter Imaging Atmospheric Cherenkov
Telescopes located at the Canary island of La Palma, Spain, and designed to
perform gamma-ray astronomy in the energy range from 50 GeV to greater than
50 TeV.

P. D'Avanzo, A. Melandri (INAF-OAB),  S. Piranomonte (INAF-OAR), E. Palazzi (INAF-IAFS Bo), E. Cappellaro (INAF-OAPd), E. Brocato (INAF-OAR), M. Branchesi (Urbino University/INFN Firenze), L.Amati (INAF-IASF Bo), L. A. Antonelli, (INAF-OAR), P. Astone (INFN-Roma), S. Campana, S. Covino (INAF-OAB), V. D'Elia (INAF-ASDC), F. Getman (INAF-OAC), G. Giuffrida (INAF-ASDC), A.Grado (INAF-OAC), G.Greco (Urbino University/INFN Firenze), L. Limatola (INAF-OAC), M. Lisi (INAF-OAR), S. Marinoni, P. Marrese (INAF-ASDC), L. Nicastro, E. Pian (SNS-Pisa), L. Pulone (INAF-OAR), F. Ricci (Sapienza University), G. Stratta (Urbino University/INFN Firenze), G. Tagliaferri (INAF-OAB), V. Testa (INAF-OAR), L. Tomasella (INAF-OAPd), V. Lorenzi, A. Garcia de Gurtubai Escudero (INAF-TNG) on behalf of the INAF Gravitational Astronomy group report: 

We observed the field of the optical transient MASTER OT J020906.21+013800.1 (Lipunov et al. GCN Circ. 18729
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 ) with the 3.6m Italian TNG telescope (Canary Islands, Spain), equipped with the DOLORES camera in imaging and spectroscopic mode starting on 2015 Dec 28.8247 UT. 

We note that the position of the optical transient reported Lipunov et al. (GCN Circ. 18729
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 ) is superposed to the galaxy SDSS J020906.10+013759.9. This galaxy is clearly visible in our 30s acquisition image obtained with the r-sdss filter, while there is no evidence for the optical transient. From a preliminary analysis, an upper limit  r=21.0 mag (AB) has been obtained by placing fake stars of different magnitudes at the reported transient position. Calibration was obtained with reference to SDSS stars in the field.

Two optical spectra, each one lasting 900s, were obtained at a mid time of 2015 Dec 28.8367 UT using the grism LR-B (wavelength range 4000 8000 AA). The slit was placed at the position of the optical transient. In the co-added spectrum we identify the emission lines O[III] and Halpha at a common redshift of z~0.034, superposed to the galaxy continuum. This redshift value is in agreement with the photometric redshift z=0.034 0.074 reported by the SDSS for this galaxy. At such redshift, the observed magnitude of the optical transient reported by Lipunov et al. (GCN Circ. 18729
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 ) corresponds to an absolute magnitude of -17.6.

Our results suggest that, at the epoch of our observations, the optical transient reported by Lipunov et al. (GCN Circ. 18729
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 ) already faded below its host galaxy level.

K. Yanagisawa, D. Kuroda (OAO/NAOJ), K. Ohta(Kyoto), N. Kawai(Tokyo
Tech.) and M. Yoshida (Hiroshima) on behalf of the J-GEM collaboration

We carried out J-band imaging observations of 66 nearby galaxies
to search for new point sources associated with the objects,
in responce to G211117.

The observations were made on 28th and 29th December 2015,
with a wide-field infrared camera (D=0.91 m), OAOWFC, of
Okayama Astrophysical Observatory (Japan).

We could find no new point sources brighter than the limiting
magnitude of J=17-18(S/N=3) in Vega system. The photometric
calibration was made against 2MASS field stars.

#----------------------------------------------------------------------
#Time(UT) exposure[sec] ra[deg.] width[arcrmin] dec[deg.]
#width[arcmin] J-Upperlimit(3-sigma) Object
2015-12-28T08:43:12.520 1200  29.1850 4.0   4.0900 4.0 17.8 PGC1263321
2015-12-28T09:10:19.131  900  29.2078 4.0   4.0256 4.0 17.8 UGC01424
2015-12-28T09:30:41.517  900  29.3356 4.0   4.3485 4.0 17.8 PGC007354
2015-12-28T09:51:03.997  900  29.8521 4.0   5.5928 4.0 17.9 PGC1285927
2015-12-28T10:11:16.345  900  31.1301 4.0   6.6357 4.0 18.0 PGC3091794
2015-12-28T10:31:28.310  900  33.0117 4.0   9.5161 4.0 17.9 UGC01694
2015-12-28T10:51:47.454  900  33.4026 4.0  10.3363 4.0 18.0 UGC01714
2015-12-28T11:12:02.227  900  34.4222 4.0  12.4706 4.0 18.0 IC1791
2015-12-28T11:32:13.798  900  34.5632 4.0  13.2044 4.0 18.2 UGC01773
2015-12-28T11:52:30.558  900  35.5554 4.0  12.0300 4.0 18.2 UGC01834
2015-12-28T12:12:45.699  900  37.1137 4.0  15.6071 4.0 18.3 UGC01946
2015-12-28T12:33:12.572  900  39.3358 4.0  20.4153 4.0 18.2 PGC009935
2015-12-28T12:53:45.424  900  39.3678 4.0  21.1420 4.0 18.3 PGC009944
2015-12-28T13:13:53.799  900  39.7754 4.0  18.3839 4.0 18.3 UGC02140
2015-12-28T13:34:15.913  900  40.8671 4.0  20.5960 4.0 18.3 PGC2807171
2015-12-28T13:54:34.347  900  42.2875 4.0  23.0175 4.0 18.3 UGC02290
2015-12-28T14:14:47.967  900  42.7106 4.0  22.7720 4.0 18.3 PGC010806
2015-12-28T14:34:57.807  900  43.2791 4.0  25.4904 4.0 18.2 IC1861
2015-12-28T14:55:22.717  900  43.6767 4.0  23.3781 4.0 18.2 PGC087212
2015-12-28T15:15:37.143  900  44.5133 4.0  25.4492 4.0 18.0 PGC011222
2015-12-28T15:36:02.888  900  49.2784 4.0  31.5834 4.0 18.1 UGC02629
2015-12-28T15:56:23.389  900  55.6185 4.0  38.9676 4.0 18.1 PGC013618
2015-12-28T16:16:33.489  900  55.9870 4.0  39.2952 4.0 18.0 UGC02836
2015-12-28T16:36:42.387  900  56.9158 4.0  39.3469 4.0 17.9 UGC02861
2015-12-28T16:56:57.534  900  57.0385 4.0  37.4571 4.0 17.8 PGC165376
2015-12-28T17:17:23.059  900  57.7660 4.0  36.8959 4.0 17.8 UGC02877
2015-12-28T17:37:34.003  900  58.2341 4.0  40.1128 4.0 17.8 PGC097023
2015-12-28T17:58:04.786  900  73.0778 4.0  49.5490 4.0 17.8 PGC016210
2015-12-28T18:18:24.226  900  77.2006 4.0  51.5931 4.0 17.9 PGC097076
2015-12-28T18:38:40.918  900  78.5205 4.0  50.0097 4.0 17.8 PGC016947
2015-12-28T19:00:03.052  900 197.4194 4.0  -7.8334 4.0 17.7 NGC4995
2015-12-28T19:20:20.267  900 197.5713 4.0  -7.4543 4.0 17.4 PGC045697
2015-12-28T19:40:34.433  900 197.6181 4.0  -7.6504 4.0 17.8 PGC045726
2015-12-28T20:00:59.196  900 197.8193 4.0  -7.2722 4.0 16.9 PGC1021744
2015-12-28T20:21:16.212  900 194.2792 4.0  -0.8078 4.0 18.2 PGC1134210
2015-12-28T20:41:32.724  900 194.3536 4.0  -0.6225 4.0 18.2 PGC044291
2015-12-29T09:39:12.292  900  27.1256 4.0  -0.2127 4.0 17.9 PGC1149052
2015-12-29T09:59:21.550  900  27.1274 4.0  -0.0629 4.0 17.9 PGC006630
2015-12-29T10:19:30.971  900  27.5294 4.0  -0.7401 4.0 18.5 UGC01296
2015-12-29T10:39:48.056  900  29.2010 4.0   5.3101 4.0 18.1 NGC741_ZM98_0105
2015-12-29T10:59:53.151  900  29.2283 4.0   5.2558 4.0 18.1 NGC741_ZM98_9936
2015-12-29T11:20:13.887  900  29.3083 4.0   5.2938 4.0 18.0 NGC741_ZM98_0061
2015-12-29T11:40:34.299  900  29.3442 4.0   5.7128 4.0 17.3 PGC1287898
2015-12-29T12:00:36.618  900  29.4207 4.0   5.8331 4.0 17.6 PGC007384
2015-12-29T12:20:46.822  900  29.5218 4.0   3.0830 4.0 17.8 PGC007415
2015-12-29T12:41:01.414  900  29.5696 4.0   6.0622 4.0 17.3 NGC741_ZM98_9835
2015-12-29T13:01:04.548  900  29.6379 4.0   6.0711 4.0 18.0 PGC1294057
2015-12-29T13:21:14.921  900  29.7225 4.0   5.5939 4.0 17.5 UGC01461
2015-12-29T13:41:29.615  900  30.2732 4.0   6.5230 4.0 18.1 UGC01505
2015-12-29T14:01:35.508  900  30.6981 4.0   7.8151 4.0 18.1 PGC138496
2015-12-29T14:21:51.343  900  32.1156 4.0   6.3949 4.0 17.9 IC0208
2015-12-29T14:46:06.233  900  55.4349 4.0  39.3371 4.0 17.9 UGC02818
2015-12-29T15:06:16.196  900  59.8890 4.0  42.6166 4.0 18.1 UGC02912
2015-12-29T15:26:56.055  900 103.1141 4.0  57.1628 4.0 18.2 UGC03569
2015-12-29T15:47:20.769  900 106.2100 4.0  56.5203 4.0 18.4 UGC03647
2015-12-29T16:07:34.551  900 109.0435 4.0  56.8232 4.0 17.3 PGC020543
2015-12-29T16:27:55.082  900 116.5172 4.0  57.1019 4.0 18.5 PGC021738
2015-12-29T16:51:02.961  720  54.9038 4.0  38.6897 4.0 17.8 UGC02808
2015-12-29T17:08:22.887  960 194.2792 4.0  -0.8078 4.0 17.8 PGC1134210
2015-12-29T17:29:55.263  900 194.3536 4.0  -0.6225 4.0 18.7 PGC044291
2015-12-29T17:50:12.111  900 195.1905 4.0  -2.7181 4.0 17.8 PGC1084547
2015-12-29T18:10:21.448  900 195.2346 4.0  -2.9222 4.0 18.3 PGC1079855
2015-12-29T18:30:32.650 2700 197.8193 4.0  -7.2722 4.0 18.9 PGC1021744
2015-12-29T18:53:00.443 1020 195.3934 4.0  -3.6711 4.0 18.3 PGC3271645
2015-12-29T19:55:00.821  900 195.3963 4.0  -3.9583 4.0 18.3 PGC1064772
2015-12-29T20:15:15.789  900 195.4537 4.0  -4.6169 4.0 17.6 PGC1055748
2015-12-29T20:35:27.248  900 195.5310 4.0  -3.8046 4.0 18.5 PGC1066638
2015-12-29T20:56:00.129  900 195.8425 4.0  -2.9894 4.0 18.4 PGC1078511
#----------------------------------------------------------------------

Fang Yuan, Christian Wolf, Brian Schmidt (ANU)

We report tiled observations of LIGO/Virgo G211117 using the 1.3m SkyMapper telescope located at Siding Spring Observatory in Australia.

Starting UTC 2015-12-29T17:09:41 (3.56 days after the trigger), SkyMapper observed 20 fields, covering a sky area of about 110 sq. deg, with 2x30s i-band exposures. Footprint of the observations has been uploaded to GraceDB. These fields are selected based on weight calculated from the GW skymap, the GW Galaxy Catalogue (augmented by 2MASS Ks photometry) and existence of SkyMapper pre-trigger observations. Using the latest GW skymap, we estimate a chance of 9% that these fields contain the true location of the source.

Images were taken during twilight with limiting mag of about 18.6 in i-band. Image subtraction have been performed against SkyMapper templates taken from May to July 2015 as part of the Southern Sky Survey.

One optical transient candidate has been detected with the following details:

ID, RA, DEC, mag, filter, JD, Apparent Host (redshift)
------------------------------------------------------------------------------------------
SMTJ13331687-1607330, 13:33:16.87, -16:07:33.0, 18.0+/-0.1, i, 2457386.2387, MCG -03-35-004 (0.020)

V. Lipunov, N.Tyurina
Lomonosov Moscow State University, Sternberg Astronomical Institute

After MASTER DataBase checking we found:

iPTF15fev  -   Known old  SN ASAS15rw MASTER-IAC Light Curve 
http://master.sai.msu.ru/static/OT/iPTFfev.jpg

iPTF15fel -  2015-12-16 23:07:20   visible in MASTER-IAC   PSN detected 10 
days  before G211117

iPTF15ffm  -  observed by MASTER-IAC from 2015-11-15 22:14:53.869 so >40 
days before trigger

The reduction is continuated.

The delay  is connected with yang age of the MASTER-IAC 
survey (started June 2015). So we lost time to transfere parts of 
DATABase from Russia to IAC telescope.

Tomoki Morokuma (The University of Tokyo), Masaomi Tanaka (National
Astronomical Observatory of Japan), Nozomu Tominaga (Konan University)
Mamoru Doi, Kentaro Motohara, Yoichi Tamura (The University of Tokyo) on
behalf of J-GEM collaboration

We report optical imaging follow-up observations for a part of the
northern skymap regions of G211117 with 1.05-m Kiso Schmidt telescope
and its 2.2 deg x 2.2 deg field-of-view camera, Kiso Wide Field Camera
(KWFC; Sako et al. 2012, SPIE, 8446, 84466L).

We took 180-sec exposure images in r-band for 46 (222 deg2) and 130 (629
deg2) fields where the SDSS images are available as below on Dec 28 and
29, 2015, respectively. The 5-sigma limiting magnitudes are about 19-20
mag (AB).

# 2015-12-28 (UT)
RA(J2000)  Dec(J2000)  starting UTC
01:36:34.8 -02:05:22 2015-12-28T08:48:47
01:36:34.8 -04:10:47 2015-12-28T09:04:56
01:37:10.3 +06:16:08 2015-12-28T14:12:14
01:45:21.8 +02:05:23 2015-12-28T08:54:11
01:45:21.8 -00:00:00 2015-12-28T09:34:29
01:45:21.8 -02:05:23 2015-12-28T09:29:03
01:45:21.9 -04:10:46 2015-12-28T09:23:38
01:45:59.6 +06:16:09 2015-12-28T14:17:58
01:46:39.7 +08:21:32 2015-12-28T14:23:22
01:54:08.5 +04:10:47 2015-12-28T12:18:03
01:54:08.6 +00:00:00 2015-12-28T10:00:09
01:54:08.6 -02:05:22 2015-12-28T09:54:45
01:54:50.7 +06:16:12 2015-12-28T08:59:33
01:55:17.1 +02:05:24 2015-12-28T10:05:33
01:55:33.0 +08:21:32 2015-12-28T14:28:45
01:56:16.1 +10:26:56 2015-12-28T14:34:09
02:02:55.1 -02:05:25 2015-12-28T14:06:26
02:02:55.5 +02:05:22 2015-12-28T12:23:28
02:02:55.6 +04:10:46 2015-12-28T12:28:51
02:11:42.2 +04:10:46 2015-12-28T12:34:15
07:59:59.8 +50:09:36 2015-12-28T15:05:08
08:04:45.0 +52:15:00 2015-12-28T15:16:14
08:10:32.7 +56:25:49 2015-12-28T12:40:12
08:13:42.9 +50:09:36 2015-12-28T15:10:51
08:14:59.6 +54:20:25 2015-12-28T12:45:35
08:26:22.1 +56:25:49 2015-12-28T12:50:59
08:29:59.7 +54:20:25 2015-12-28T12:56:23
08:42:11.6 +56:25:49 2015-12-28T13:07:11
08:44:59.8 +54:20:25 2015-12-28T13:01:45
08:58:01.1 +56:25:50 2015-12-28T13:12:36
08:59:59.8 +54:20:25 2015-12-28T13:17:58
09:14:59.8 +54:20:26 2015-12-28T13:23:26
09:29:59.8 +54:20:26 2015-12-28T13:28:50
09:30:17.6 +52:15:01 2015-12-28T13:34:14
09:44:34.3 +52:15:02 2015-12-28T13:39:38
12:22:38.2 +14:37:49 2015-12-28T16:25:33
12:22:55.5 +16:43:12 2015-12-28T18:09:58
12:23:13.3 +18:48:36 2015-12-28T18:15:24
12:26:59.9 +12:32:24 2015-12-28T18:20:47
12:31:18.0 +10:27:00 2015-12-28T18:37:15
12:31:41.8 +14:37:48 2015-12-28T18:26:26
12:35:32.9 +08:21:36 2015-12-28T19:06:25
12:35:59.8 +12:32:25 2015-12-28T18:31:50
12:39:45.3 +06:16:12 2015-12-28T19:11:56
12:40:14.6 +10:27:00 2015-12-28T19:17:20
12:44:25.6 +08:21:35 2015-12-28T19:23:04

# 2015-12-29 (UT)
RA(J2000) Dec(J2000) starting UTC
01:19:01.4 -04:10:47 2015-12-29T09:44:47
01:27:48.0 -02:05:23 2015-12-29T09:38:59
01:27:48.2 -04:10:46 2015-12-29T09:33:36
01:36:34.9 -00:00:00 2015-12-29T09:50:12
01:36:34.9 -04:10:47 2015-12-29T09:13:06
01:36:35.0 +02:05:23 2015-12-29T10:01:00
01:36:35.0 -02:05:22 2015-12-29T09:07:42
01:45:21.3 +04:10:47 2015-12-29T10:06:44
01:45:21.7 +02:05:24 2015-12-29T09:02:20
01:54:08.7 -04:10:47 2015-12-29T09:55:36
01:54:50.6 +06:16:11 2015-12-29T08:56:57
01:56:59.8 +12:32:23 2015-12-29T11:06:30
02:02:55.5 +00:00:00 2015-12-29T10:12:21
02:02:55.5 -04:10:47 2015-12-29T10:50:20
02:11:42.3 +00:00:00 2015-12-29T10:23:09
02:11:42.3 +02:05:24 2015-12-29T10:17:44
02:11:42.3 -02:05:23 2015-12-29T10:28:47
02:11:42.3 -04:10:47 2015-12-29T10:44:57
02:20:29.1 +02:05:24 2015-12-29T10:39:34
02:20:29.1 +04:10:47 2015-12-29T10:55:43
02:20:29.2 -00:00:00 2015-12-29T10:34:10
02:29:15.7 +04:10:47 2015-12-29T11:01:06
07:59:59.8 +54:20:26 2015-12-29T11:12:22
08:05:34.5 +58:31:14 2015-12-29T11:17:46
08:19:00.2 +52:15:02 2015-12-29T11:28:33
08:22:18.3 +58:31:14 2015-12-29T11:23:10
08:27:25.4 +50:09:38 2015-12-29T11:39:37
08:30:32.4 +48:04:13 2015-12-29T12:18:09
08:33:16.0 +52:15:02 2015-12-29T11:34:14
08:41:07.8 +50:09:38 2015-12-29T11:45:00
08:43:37.9 +48:04:14 2015-12-29T12:12:22
08:47:31.2 +52:15:03 2015-12-29T11:50:26
08:54:50.8 +50:09:39 2015-12-29T12:01:33
08:56:43.5 +48:04:14 2015-12-29T12:23:33
09:01:46.7 +52:15:01 2015-12-29T11:56:10
09:08:33.9 +50:09:38 2015-12-29T12:06:58
09:09:48.9 +48:04:14 2015-12-29T12:28:56
09:15:46.9 +45:58:50 2015-12-29T12:34:19
09:16:02.1 +52:15:01 2015-12-29T13:07:15
09:22:16.7 +50:09:37 2015-12-29T12:56:12
09:22:54.2 +48:04:14 2015-12-29T12:45:23
09:28:25.0 +45:58:49 2015-12-29T12:39:58
09:35:59.8 +48:04:14 2015-12-29T12:50:48
09:35:59.9 +50:09:37 2015-12-29T13:01:53
09:41:02.8 +45:58:49 2015-12-29T13:34:34
09:49:05.3 +48:04:14 2015-12-29T13:18:02
09:49:42.7 +50:09:38 2015-12-29T13:12:38
09:53:40.7 +45:58:50 2015-12-29T13:29:10
10:02:10.6 +48:04:14 2015-12-29T13:23:47
10:03:25.4 +50:09:37 2015-12-29T13:39:57
10:06:18.7 +45:58:50 2015-12-29T13:45:22
10:10:09.9 +43:53:26 2015-12-29T13:56:14
10:15:16.1 +48:04:14 2015-12-29T14:01:37
10:17:08.3 +50:09:37 2015-12-29T14:07:19
10:18:56.8 +45:58:50 2015-12-29T13:50:51
10:22:22.3 +43:53:25 2015-12-29T14:40:04
10:28:21.7 +48:04:14 2015-12-29T14:12:43
10:30:51.3 +50:09:37 2015-12-29T14:18:06
10:31:34.7 +45:58:50 2015-12-29T14:23:33
10:34:34.4 +43:53:25 2015-12-29T14:29:17
10:37:22.5 +41:48:01 2015-12-29T15:23:48
10:41:27.1 +48:04:13 2015-12-29T14:45:27
10:44:12.3 +45:58:49 2015-12-29T14:34:41
10:44:34.0 +50:09:37 2015-12-29T14:51:10
10:46:46.7 +43:53:26 2015-12-29T15:07:23
10:49:10.5 +41:48:01 2015-12-29T15:13:03
10:51:25.5 +39:42:37 2015-12-29T15:45:44
10:54:31.6 +48:04:14 2015-12-29T14:56:34
10:56:50.3 +45:58:49 2015-12-29T15:01:59
10:58:58.8 +43:53:25 2015-12-29T15:18:25
11:00:58.8 +41:48:01 2015-12-29T15:29:12
11:02:51.2 +39:42:36 2015-12-29T15:34:55
11:04:37.0 +37:37:13 2015-12-29T16:29:30
11:09:27.9 +45:58:49 2015-12-29T15:56:48
11:11:11.1 +43:53:25 2015-12-29T15:51:07
11:12:46.8 +41:48:01 2015-12-29T15:40:19
11:14:16.9 +39:42:37 2015-12-29T16:13:04
11:15:40.6 +37:37:12 2015-12-29T16:18:43
11:17:00.3 +35:31:49 2015-12-29T16:51:24
11:23:23.1 +43:53:25 2015-12-29T16:02:17
11:24:35.4 +41:48:01 2015-12-29T16:07:40
11:25:42.9 +39:42:37 2015-12-29T16:24:06
11:26:46.1 +37:37:12 2015-12-29T16:34:55
11:27:45.5 +35:31:48 2015-12-29T16:40:35
11:36:23.3 +41:48:00 2015-12-29T17:19:07
11:37:08.4 +39:42:36 2015-12-29T16:56:49
11:37:50.8 +37:37:13 2015-12-29T16:46:01
12:04:42.1 +20:53:59 2015-12-29T20:53:05
12:08:53.3 +08:21:35 2015-12-29T20:03:51
12:08:59.9 +12:32:23 2015-12-29T19:36:48
12:13:14.9 +06:16:12 2015-12-29T20:14:38
12:13:24.8 +10:26:59 2015-12-29T19:53:02
12:13:34.3 +14:37:48 2015-12-29T19:47:39
12:13:45.2 +16:43:11 2015-12-29T20:42:14
12:13:56.0 +18:48:36 2015-12-29T20:47:36
12:14:06.8 +20:53:59 2015-12-29T20:58:29
12:17:33.4 +04:10:48 2015-12-29T20:25:25
12:17:46.6 +08:21:35 2015-12-29T19:58:28
12:17:59.7 +12:32:23 2015-12-29T19:31:07
12:22:04.8 +06:16:11 2015-12-29T20:20:00
12:22:21.4 +10:27:00 2015-12-29T19:42:14
12:26:20.1 +04:10:47 2015-12-29T20:30:48
12:26:40.0 +08:21:36 2015-12-29T20:09:14
12:30:55.2 +06:16:12 2015-12-29T20:36:11
12:32:05.8 +16:43:12 2015-12-29T19:20:22
12:32:30.7 +18:48:36 2015-12-29T19:25:44
12:35:07.0 +00:00:01 2015-12-29T17:58:18
12:40:45.3 +14:37:48 2015-12-29T19:09:32
12:41:16.1 +16:43:12 2015-12-29T19:14:55
12:43:53.7 +02:05:26 2015-12-29T17:13:43
12:43:53.9 +00:00:02 2015-12-29T17:52:55
12:43:53.9 +04:10:50 2015-12-29T17:08:19
12:44:59.9 +12:32:24 2015-12-29T19:04:07
12:48:35.0 +06:16:13 2015-12-29T17:02:56
12:49:11.4 +10:27:00 2015-12-29T18:53:13
12:52:40.4 +00:00:02 2015-12-29T17:41:26
12:52:40.5 +02:05:25 2015-12-29T17:30:38
12:52:40.6 +04:10:49 2015-12-29T17:25:15
12:53:19.5 +08:21:36 2015-12-29T18:41:59
12:53:59.9 +12:32:24 2015-12-29T18:58:41
12:57:25.2 +06:16:13 2015-12-29T18:31:06
12:58:07.9 +10:27:00 2015-12-29T18:47:22
13:01:27.5 +02:05:26 2015-12-29T17:36:04
13:01:27.6 +00:00:01 2015-12-29T17:47:23
13:01:27.6 +04:10:48 2015-12-29T18:25:37
13:02:13.1 +08:21:37 2015-12-29T18:36:35
13:10:13.8 +02:05:25 2015-12-29T18:09:27
13:10:14.4 +00:00:02 2015-12-29T18:03:47
13:10:14.4 +04:10:49 2015-12-29T18:20:15
13:19:01.2 +00:00:03 2015-12-29T18:14:51

J.Y. Wei (NAOC), C. WU(NAOC), N.Leroy (LAL), L.P. Xin (NAOC), X.H. Han (NAOC), X.M. Meng(NAOC), L. Huang(NAOC), Y. Xu(NAOC), H.B. Cai(NAOC),J. Wang(NAOC), X.M. Lu(NAOC), Y.L. Qiu (NAOC), J.S. Deng(NAOC), L. Cao(NAOC),S. Wang(NAOC), E.W.Liang (GXU), Y.G. Yang (HBNU), B. Cordier(CEA),S.N. Zhang (NAOC),S. Basa (LAM), B.B. Wu(IHEP), Jean-Luc Atteia (IRAP), D. Götz (CEA), Cyril Lachaud (APC) on behalf of the SVOM Gravitational Astronomy group report:

 

We observed about 3200 square degree (8 sky regions) of the skymap of the advanced LIGO and Virgo trigger G211117, with Mini-GWAC(Mini Ground Wide Angle Camera), at Xinglong Observatory of NAOC equipped with U9000 camera(FOV~400 square degree/camera). Mini-GWAC comprises of 12 wide field angle cameras(aperture=7cm), working with unfiltered band. The observations are operated in time-series mode, taking one exposure in 15 seconds (10s exposure + 5s readout). The limit magnitude is ~12 mag in R band. The coordinates of the 8 regions and observation time are list following:

 

#- RA(J2000) Dec(J2000)    start-obs (UTC)    end-obs (UTC)

04:00:36.007  +50:05:10.042  2015-12-26 15:40:33.   2015-12-26 18:29:37.

06:39:58.264  +50:51:18.330  2015-12-26 15:40:27.   2015-12-26 20:04:36.

11:59:40.897  +69:49:54.653  2015-12-26 15:55:37.   2015-12-26 18:44:40.

12:00:34.275  +29:36:35.499  2015-12-26 17:20:33.   2015-12-26 22:39:34.

13:28:29.736  +10:21:33.849  2015-12-26 18:45:34.   2015-12-26 22:39:25.

14:40:48.753  +50:06:02.281  2015-12-26 18:31:44.   2015-12-26 21:34:50.

14:52:33.057  +10:50:27.095  2015-12-26 20:06:55.   2015-12-26 22:39:31

16:15:01.695  +29:45:14.593  2015-12-26 21:37:03.   2015-12-26 22:39:30.

 

Mini-GWAC is working in sky survey mode. The same sky regions were observed at Dec. 27 and 28. The image analysis is ongoing. Further observations of these fields are planned.

S. B. Cenko (NASA/GSFC), Y. Cao (Caltech), R. Ferretti (Stockholm), L. Singer (NASA/GSFC), M. M. Kasliwal (Caltech), D. A. Perley (DARK), V. Bhalerao (IUCAA), R. Laher (IPAC), and T. Barlow (Caltech) report on behalf of the intermediate Palomar Transient Factory collaboration:

We have performed tiled observations of LIGO/Virgo 211117 using the Palomar 48-inch Oschin telescope (P48). The northern probability island from the BAYESTAR localization was observable from Palomar for most of the night of 2015 December 28 UT. Starting at 1:57 UT (1.93 d after the LIGO trigger), we imaged 140 fields spanning 952 square degrees.  We estimate a 51% prior probability that these fields contain the true location of the source.

A subset of these fields (731 square degrees, containing 37% of the probability localization) were processed through standard iPTF pipelines (those with previously obtained reference images).  Preliminary sifting through candidate variable sources using image subtraction by both our NERSC and IPAC pipelines, and applying standard iPTF vetting procedures, we flagged the following optical transient candidates for further follow-up:

  name        RA        Dec     time   mag     z    
--------- ---------- ---------- ----- ----- ------- 
iPTF15fdv  38.690081 +18.343843 02:13 19.13 0.03419   
iPTF15fhq  95.858071 +57.197553 09:47 18.92 0.04367  
iPTF15fhl 187.056654 +17.617051 12:42 19.09 0.04372   
iPTF15ffh  20.555150  -5.202027 03:46 18.93 0.06857
iPTF15fev  33.993552 +12.237196 02:42 17.64   0.018  
iPTF15fel  47.303172 +27.521374 02:27 18.96   0.049  
iPTF15ffz  22.266660  -8.227863 03:44 19.65   0.075
iPTF15ffi  35.437642  +7.617305 04:06 18.71   0.079
iPTF15fgk  30.201092 +10.255481 04:01 20.23    0.11
iPTF15ffk  35.650925  +6.877865 04:06 19.19    0.11
iPTF15ffo  36.172201  +7.150811 04:06 20.06    0.12
iPTF15fed  28.083908  +1.557477 02:00 19.93    0.22
iPTF15fib  33.144517 +17.763099 05:33 19.54    0.28
iPTF15feu  29.027105  +5.276469 02:03 20.44    0.70
iPTF15fgy  50.732616 +34.989945 05:47 19.52 
iPTF15fhd  88.700355 +57.911389 09:42 19.70
iPTF15fhp 137.184825 +55.451767 10:07 19.43
iPTF15fen  50.406434 +31.452250 02:28 19.53       H
iPTF15ffm  23.105842  -4.033150 03:47 19.81       H
iPTF15fhf 100.769436 +55.466998 09:11 19.22      G?

Where available, redshifts for nearby galaxy associations are provided, either spectroscopic (4 significant figures) or photometric redshifts from SDSS (2 significant figures).  

iPTF15fen and iPTF15ffm do not have obvious host galaxy associations in our reference imaging (H = hostless).  

iPTF15fhf is in the halo of a bright star, and may therefore be an image artifact (G = ghost).

We obtained optical spectra of iPTF15fdv and iPTF15fhl with the Gemini Multi-Object Spectrograph on the 8 m Gemini North telescope on 2015 December 29.  iPTF15fdv is a type II SN, with broad  P-Cygni features of H-alpha and Ca II.  It is very likely unrelated to the G211117 trigger.  Cross-correlation of the spectrum of iPTF15fhl with template spectra using the SuperNova IDentification code (Blondin and Tonry, ApJ, 2007, 666, 1024) reveals matches with a number of type Ic (and some Ib) supernovae.  Of particular interest is a similarity with the peculiar SN Ib 2005bf (Folatelli et al, ApJ, 2006, 641, 1039).  Further observations of this source are encouraged.

We further note that the source reported by Itoh et al. (GCN 18742
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 ) is likely to be the minor planet 2606 Odessa, also visible in our P48 images near this time.

Positions are stated in the ICRS. Times are in UTC. Magnitudes are based on image subtraction; they are in the Mould R filter and in the AB system, calibrated with respect to point sources in SDSS as described in Ofek et
al. (2012, http://dx.doi.org/10.1086/664065
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 ).

The diagram https://gracedb.ligo.org/apiweb/events/G211117/files/iptf.pdf shows the locations of our candidates and the P48 fields in relation to the LIGO/Virgo localization.

SUBJECT: LIGO/Virgo G211117: La Silla - QUEST observations 2015 Dec 28, 29
FROM:  D. Rabinowitz, C. Baltay, N. Ellman (Yale), P. Nugent (LBNL)

  The La Silla-QUEST survey operating the 10-sq-deg QUEST camera on the 
1.0m ESO Schmidt at La Silla, Chile has covered th e ~90% confidence 
area for LVC event G21117 between Dec +27 and -13 deg. Analysis is 
ongoing, and further survey observa tions are planned. One target 
(LSQ15bvw) has been detected with high confidence outside the 90% 
confidence region:

LSQ Desig   V-mag    hh:mm:ss   dd:mm:ss        JD
  _________________________(J2000)___________________________
  LSQ15bvw     18.8    02:08:15.97  15:02:52.80 2457385.6006

LSQ15bvw appears as an isolated source not visible in years 2012 and 
2013.  Observations made 2015 Oct 28 and 29 (V mag 19.2 on JD 
2457384.6032 and V mag 18.8 on 2457385.6006) indicate that the object is 
brightening by ~ 0.5 mags per day.


Several other sources have been detected with lower confidence. All 
appear as likely supernova near the center of distant (z>0.01) host 
galaxies :


LSQ Desig   V-mag    hh:mm:ss   dd:mm:ss       JD
  _________________________(J2000)___________________________
LSQ15bvk     19.6    02:33:08.79  18:13:48.41 2457384.6297
LSQ15bvo     20.6    02:38:44.05  21:00:23.35   2457384.5775
LSQ15bvs     18.3    02:20:45.15 11:03:18.58   2457384.6032

P.A. Evans (U. Leicester), J.A. Kennea (PSU), Scott Barthelmy
(NASA/GSFC), Dave Burrows (PSU), Sergio Campana (INAF-OAB), Brad Cenko
(NASA/GSFC), Neil Gehrels (NASA/GSFC), Paolo Giommi (ASI), Frank
Marshall (NASA/GSFC), John Nousek (PSU), Paul O'Brien (U. Leicester),
Julian Osborne (U. Leicester), David Palmer (LANL), Matteo Perri
(ASDC), Judy Racusin (NASA/GSFC), Mike Siegel (PSU), Gianpiero
Tagliaferri (INAF-OAB) report on behalf of the Swift team:

Swift has performed a series of 75 observations of galaxies (from the
GWGC catalogue) within the aLIGO error region for the aLIGO trigger
G211117, using the 'bayestar' GW localisation map. The observations
currently span from 140 ks to 217 ks after the aLIGO trigger, and cover
8.4 sq degrees on the sky (corrected for overlaps).

Since the last Swift GCN, we have detected a 9 X-ray sources, these are
either new detections, or have been given a higher 'rank' than in the
last circular. Each source is assigned a rank of 1-4 which describes
how likely it is to be related to the GW trigger, with 1 being the most
likely and 4 being the least likely. The ranks are described at
http://www.swift.ac.uk/ranks.php.

We have found:

  * 0 sources of rank 1
  * 0 sources of rank 2
  * 4 sources of rank 3
  * 5 sources of rank 4

We assumed a power-law spectrum with NH=3e20 cm^2, and Gamma=1.7

In addition to these sources a number of objects were detected and
reported in COUNTERPART notices, which are in fact artefacts around
extended sources, and are not point source detections. These spurious
sources are not reported below.

RANK 3 sources
==============

These are uncatalogued X-ray sources, however they are not brighter
than previous upper limits, so do not stand out as likely counterparts
to the GW trigger.
  
  Source 13:
  =============
    RA: 	 187.6968 ( = 12h 30m 47.23s)  J2000
    Dec:	 +12.3389 ( = +12d 20' 20.0")  J2000
    Error:	 +6.4 (radius, 90% confidence).
    Peak Rate:	 1.5e-01 +/- 5.4e-02 ct/sec (0.3-10 keV)
    Peak Flux:	 6.3e-12 +/- 2.3e-12 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 2.5e+00 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       So the source is not significantly above the RASS 3-sigma limit
    There is no evidence for fading
    There is 1 GWGC galaxy within 200 kpc of the source.
  
  Source 24:
  =============
    RA: 	 188.0297 ( = 12h 32m 7.13s)  J2000
    Dec:	 +11.8560 ( = +11d 51' 21.6")  J2000
    Error:	 +7.5 (radius, 90% confidence).
    Peak Rate:	 1.6e-02 +/- 6.1e-03 ct/sec (0.3-10 keV)
    Peak Flux:	 6.7e-13 +/- 2.6e-13 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 5.5e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       So the source is not significantly above the RASS 3-sigma limit
    There is no evidence for fading
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
  
  Source 27:
  =============
    RA: 	 187.9278 ( = 12h 31m 42.67s)  J2000
    Dec:	 +12.3292 ( = +12d 19' 45.1")  J2000
    Error:	 +11.7 (radius, 90% confidence).
    Peak Rate:	 1.8e-02 +/- 1.0e-02 ct/sec (0.3-10 keV)
    Peak Flux:	 7.7e-13 +/- 4.4e-13 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 2.6e-01 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       So the source is not significantly above the RASS 3-sigma limit
    There is no evidence for fading
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
  
  Source 44:
  =============
    RA: 	 187.8733 ( = 12h 31m 29.59s)  J2000
    Dec:	 +11.8772 ( = +11d 52' 37.9")  J2000
    Error:	 +6.7 (radius, 90% confidence).
    Peak Rate:	 1.4e-02 +/- 6.2e-03 ct/sec (0.3-10 keV)
    Peak Flux:	 5.9e-13 +/- 2.6e-13 erg cm^-2 s^-1 (0.3-10 keV)
    RASS UL:	 8.8e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)

       So the source is not significantly above the RASS 3-sigma limit
    There is no evidence for fading
    NOTE: this source is not within 200 kpc of a GWGC galaxy.


RANK 4 sources
==============

These are catalogued X-ray sources, showing no signs of outburst
compared to previous observations, so they are not likely to be related
to the GW trigger.
  
  Source 6:
  =============
    RA: 	 207.1852 ( = 13h 48m 44.45s)  J2000
    Dec:	 -30.4960 ( = -30d 29' 45.6")  J2000
    Error:	 +6.0 (radius, 90% confidence).
    Peak Rate:	 5.1e-02 +/- 1.2e-02 ct/sec (0.3-10 keV)
    Peak Flux:	 2.2e-12 +/- 5.2e-13 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  XMMSL1 J134844.6-302948 in the XMM-NEWTON/XMMSLEWCLN
catalogue
    Separation:  2.7" from the XRT source
    Cat Rate:	 1.4e+00 +/- 3.7e-01 ct/sec (0.3-10 keV)
    Cat Flux:	 1.5e-11 +/- 3.9e-12 erg cm^-2 s^-1 (0.3-10 keV)
       So the source is not significantly above the catalogued flux
    The source may be fading, at the 0.3-sigma level.
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
    A SIMBAD object `2XMM J134844.7-302943' is 3.7" away
    There is 1 2MASS object within the source's 3-sigma error radius
  
  Source 7:
  =============
    RA: 	 207.2700 ( = 13h 49m 4.80s)  J2000
    Dec:	 -30.2955 ( = -30d 17' 43.8")  J2000
    Error:	 +7.3 (radius, 90% confidence).
    Peak Rate:	 4.7e-02 +/- 1.2e-02 ct/sec (0.3-10 keV)
    Peak Flux:	 2.0e-12 +/- 5.3e-13 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  XMMSL1 J134904.4-301745 in the XMM-NEWTON/XMMSLEWCLN
catalogue
    Separation:  3.6" from the XRT source
    Cat Rate:	 1.6e+00 +/- 4.9e-01 ct/sec (0.3-10 keV)
    Cat Flux:	 1.7e-11 +/- 5.2e-12 erg cm^-2 s^-1 (0.3-10 keV)
       So the source is not significantly above the catalogued flux
    There is no evidence for fading
    There is 1 GWGC galaxy within 200 kpc of the source.
    A SIMBAD object `[RP98d] P6' is 6.3" away
    There is 1 2MASS object within the source's 3-sigma error radius
  
  Source 16:
  =============
    RA: 	 187.6792 ( = 12h 30m 43.01s)  J2000
    Dec:	 +12.3882 ( = +12d 23' 17.5")  J2000
    Error:	 +5.9 (radius, 90% confidence).
    Peak Rate:	 4.3e+00 +/- 1.2e+00 ct/sec (0.3-10 keV)
    Peak Flux:	 1.8e-10 +/- 5.2e-11 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  2RXP J123044.7+122331 in the ROSAT/ROSPSPC catalogue
    Separation:  28.9" from the XRT source
    Cat Rate:	 0.0e+00 +/- 0.0e+00 ct/sec (0.3-10 keV)
    Cat Flux:	 0.0e+00 +/- 0.0e+00 erg cm^-2 s^-1 (0.3-10 keV)
       So the source is not significantly above the catalogued flux
    The source may be fading, at the 0.7-sigma level.
    There is 1 GWGC galaxy within 200 kpc of the source.
    A SIMBAD object `[SFH81] 1157' is 7.9" away
  
  Source 23:
  =============
    RA: 	 187.8039 ( = 12h 31m 12.94s)  J2000
    Dec:	 +12.0537 ( = +12d 03' 13.3")  J2000
    Error:	 +6.5 (radius, 90% confidence).
    Peak Rate:	 7.0e-02 +/- 2.5e-02 ct/sec (0.3-10 keV)
    Peak Flux:	 3.0e-12 +/- 1.1e-12 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  3XMM J123113.1+120307 in the XMM-NEWTON/XMMSSC
catalogue
    Separation:  6.8" from the XRT source
    Cat Rate:	 5.4e-01 +/- 5.9e-03 ct/sec (0.3-10 keV)
    Cat Flux:	 5.7e-12 +/- 6.2e-14 erg cm^-2 s^-1 (0.3-10 keV)
       So the source is not significantly above the catalogued flux
    There is no evidence for fading
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
    A SIMBAD object `2MASX J12311311+1203075' is 6.7" away
    There is 1 2MASS object within the source's 3-sigma error radius
  
  Source 32:
  =============
    RA: 	 187.7473 ( = 12h 30m 59.35s)  J2000
    Dec:	 +12.1925 ( = +12d 11' 33.0")  J2000
    Error:	 +5.6 (radius, 90% confidence).
    Peak Rate:	 -1.0e+00 +/- -1.0e+00 ct/sec (0.3-10 keV)
    Peak Flux:	 -4.3e-11 +/- -4.3e-11 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  3XMM J123059.4+121131 in the XMM-NEWTON/XMMSSC
catalogue
    Separation:  1.8" from the XRT source
    Cat Rate:	 7.5e-01 +/- 9.4e-03 ct/sec (0.3-10 keV)
    Cat Flux:	 7.9e-12 +/- 9.9e-14 erg cm^-2 s^-1 (0.3-10 keV)
       So the source is not significantly above the catalogued flux
    There is no evidence for fading
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
    A SIMBAD object `2XMM J123059.4+121131' is 2.7" away

This circular is an official product of the Swift team.

M. Soares-Santos (Fermilab), A. Rest (STSCI), D. James (CTIO/NOAO), D. J.
Brout (UPenn), J. Annis (Fermilab), E. Berger (Harvard), H.-Y. Chen
(UChicago), P. Cowperthwaite (Harvard), H. T. Diehl (Fermilab), B. Farr
(UChicago), D. A. Finley (Fermilab), J. Frieman (Fermilab/UChicago),  R.
Gruendl (NCSA), D. Holz (UChicago), R. Kessler (UChicago), K. Herner
(Fermilab), E. Neilsen (Fermilab), M. Sako (UPenn), B. Yanny (Fermilab)

On behalf of the DESGW team:

We report on observations done with the Dark Energy camera (DECam) on the
Blanco 4-m telescope at CTIO on the night of 2015-12-27 in response to the
LVC trigger G211117/G211182. These observations are part of a plan to
observe about 90 sq-deg of the region of interest (the subregion that is
visible from CTIO) and cover a total of about 10% of the total LVC
probability.

DECam has a 3 sq-deg field of view, and typically reaches i,z = 23rd
limiting
magnitudes for 90 sec exposure times. If an optical counterpart of
magnitude ~23 or brighter, is present within the imaged area, our observing
strategy allows us to achieve ~90% detection probability.

Coordinates observed in the first night are given below. More observations
are planned for upcoming nights. Analysis is underway.

ra      dec
29.932371       2.0517
25.168446       -3.0207
26.75595        -2.0063
37.708542       13.20445
34.568587       9.14855
23.617796       -6.0642

-- 
Marcelle Soares-Santos
http://home.fnal.gov/~marcelle/
http://www.darkenergysurvey.org/ <http://darkenergysurvey.org/>

R. Itoh, Y. Kanda, M. Yoshida, Y. Utsumi, K. S. Kawabata, M. Uemura,
T. Nakaoka, M. Kawabata (HASC, Hiroshima Univ.), M. Tanaka (NAOJ)
on behalf of J-GEM collaboration

We observed nearby galaxies listed in GWGC in the error area of
the G211117 with HONIR (7 arcmin FOV optical near-infrared 2 color
simultaneous imager & spectrograph) attached to the 1.5m Kanata
telescope on 2015-12-28 (UTC). We performed I and J bands imaging
observations.

We found a transient point source in the field of UGC 1410 at
2015-12-28 13:42 (UTC). The object was clearly detected both in I
and J. The position and I band magnitude of this object are

      RA 01:56:17.6   DEC +04:33:08   17.3 $B!^(B 0.2 (I).

The position is consistent with that of the SDSS J015617.19+043307.7
whose i band magnitude is 22.12 (SDSS DR10). The OT we found is about
100 times brighter than this SDSS object. Spectroscopic follow-up
is encouraged.

The observed galaxies and the 3-sigma I-band limiting magnitudes are
listed below.

#Time(UT) exposure ra[deg.] width[arcrmin] dec[deg.] width[arcmin]
#I-Upperlimit(3-sigma) Object
#-----------------------------------------------------------------
2015-12-28T09:00:44 120.0 31.1792 7 8.5431 7 19.4 UGC01572
2015-12-28T09:14:04 120.0 29.5250 7 5.7689 7 20.7 PGC1288823
2015-12-28T09:27:33 120.0 34.4042 7 12.5089 7 -- IC1790
2015-12-28T09:41:06 120.0 35.3792 7 14.1986 7 19.0 UGC01817
2015-12-28T09:55:28 120.0 32.2758 7 1.6333 7 19.8 J020905.98+013800.5
2015-12-28T10:35:37 120.0 38.7912 7 20.8525 7 20.6 UGC02064
2015-12-28T10:49:12 120.0 26.9542 7 0.3039 7 -- PGC1146688
2015-12-28T11:02:32 120.0 26.7250 7 0.6139 7 -- PGC1138988
2015-12-28T11:28:11 120.0 28.6708 7 0.6114 7 -- PGC1170628
2015-12-28T11:42:03 120.0 45.5333 7 29.1081 7 20.7 UGC02497
2015-12-28T11:55:44 120.0 27.8500 7 1.6961 7 19.8 PGC1202981
2015-12-28T12:09:06 120.0 29.5167 7 2.0436 7 -- [RGK2003]J015804.70+020237.4
2015-12-28T12:22:23 120.0 29.4083 7 2.4231 7 20.8 PGC007383
2015-12-28T12:35:42 120.0 29.0542 7 3.4886 7 19.4 PGC007248
2015-12-28T12:49:00 120.0 29.6417 7 3.2569 7 20.1 UGC01454
2015-12-28T13:02:16 120.0 29.5083 7 3.3692 7 17.6 UGC01446
2015-12-28T13:15:30 120.0 29.5042 7 3.4539 7 19.9 PGC007442
2015-12-28T13:28:45 120.0 29.0667 7 3.7617 7 19.9 IC0174
2015-12-28T13:42:06 120.0 29.0667 7 4.6469 7 21.0 UGC01410
2015-12-28T14:00:13 120.0 29.4958 7 4.3950 7 19.9 UGC01444
2015-12-28T14:13:38 120.0 29.2833 7 4.5644 7 20.9 PGC007331
2015-12-28T14:26:52 120.0 29.0250 7 4.9969 7 20.6 PGC007225
2015-12-28T14:40:08 120.0 29.1375 7 5.2150 7 19.2 PGC007276
2015-12-28T14:53:20 120.0 29.7083 7 5.3597 7 17.3 PGC007476
2015-12-28T15:06:35 120.0 29.7208 7 5.4175 7 19.8 PGC007477
2015-12-28T15:19:58 120.0 30.8958 7 4.7856 7 17.3 UGC01553
2015-12-28T15:50:04 120.0 38.1708 7 15.7192 7 20.7 PGC089526
2015-12-28T16:03:20 120.0 40.2500 7 17.4311 7 19.1 UGC02168
2015-12-28T16:16:55 120.0 38.2208 7 19.2581 7 -- PGC009699
2015-12-28T16:30:12 120.0 39.7667 7 18.3939 7 17.7 PGC010042
2015-12-28T16:43:30 120.0 42.3125 7 21.3047 7 --- PGC089527
2015-12-28T16:56:49 120.0 43.8000 7 24.6347 7 19.0 PGC011015
2015-12-28T17:10:05 120.0 45.5167 7 25.7933 7 17.8 PGC090653
2015-12-28T17:23:33 120.0 52.8250 7 35.4661 7 19.6 UGC02770
2015-12-28T17:36:47 120.0 53.2083 7 36.2186 7 19.5 UGC02778
2015-12-28T17:50:10 120.0 53.3042 7 36.1842 7 17.7 UGC02780
2015-12-28T18:03:31 120.0 55.3833 7 37.2256 7 17.7 UGC02817
2015-12-28T18:16:48 120.0 56.7417 7 38.6342 7 18.4 UGC02857
2015-12-28T18:30:12 120.0 57.7208 7 39.7889 7 18.1 PGC097021
2015-12-28T19:01:50 120.0 70.3417 7 45.8281 7 18.6 PGC3094748
2015-12-28T19:15:12 120.0 68.9917 7 47.7172 7 19.3 PGC3094741
2015-12-28T19:28:31 120.0 69.5625 7 48.6942 7 19.3 PGC015704
2015-12-28T19:41:56 120.0 76.5833 7 50.8417 7 20.9 PGC097073
2015-12-28T19:55:20 120.0 84.9333 7 52.6019 7 19.8 PGC2816495
2015-12-28T20:08:46 120.0 84.4417 7 54.1625 7 17.3 PGC090015
2015-12-28T20:22:13 120.0 92.7792 7 55.3381 7 -- PGC090750
2015-12-28T20:35:34 120.0 103.2917 7 57.1778 7 17.9 UGC03574
2015-12-28T20:48:56 120.0 105.9958 7 56.4861 7 20.1 PGC020086

Eric Burns (UAH), Lindy Blackburn (CfA), Michael S. Briggs (UAH), Jordan
Camp (NASA/GSFC),
Nelson Christensen (Carleton College), Valerie Connaughton(USRA), Tito Dal
Canton (MPG),
Adam Goldstein (NASA/MSFC), Peter Jenke (UAH), Tyson Littenberg (USRA/UAH),
Judith Racusin (NASA/GSFC), Peter Shawhan (UMD), Leo Singer (NASA/GSFC),
John Veitch (Birmingham), Binbin Zhang (UAH)

The high probability northern arc of the Advanced LIGO skymap was mostly
occulted by the
Earth. The entire high probability southern arc was observed by Fermi GBM
during the GW
event. GBM was observing 45% of the cWB map probability.

A seeded search of the GBM Time-Tagged Event data between 8 keV and 40 MeV
from 30 s
before to 30 s after the CBC candidate event revealed no significant
emission on search
timescales in factors of 2 from 64 ms to 2.048 s. Additional blind searches
of the GBM NaI
detector data over several thousands of seconds before and after the CBC
candidate also
find no significant gamma-ray signal.

R. Itoh, Y. Utsumi, T. Nakaoka, M. Kawabata, M. Yoshida (HASC,
Hiroshima Univ.) on behalf of J-GEM collaboration

We observed nearby galaxies listed in GWGC in the error area of
the G211117 with HOWPol (15 arcmin FOV optical imager) attached
to the 1.5m Kanata telescope on 2015-12-27 (UTC). We performed
R and I bands imaging observations. No optical transient brighter
the upper limits of the observed fields was detected in both
bands. The observed objects and 3-sigma upper limits are listed
below.

#Time(UT) exposure[sec] ra[deg.] width[arcrmin] dec[deg.]
#width[arcmin] R-Upperlimit(3-sigma) I-Upperlimit(3-sigma) Object
#-----------------------------------------------------------------
2015-12-27T18:10:18 90.0 57.7208 10 39.7889 10 19.2 19.2 PGC097021
2015-12-27T18:30:56 90.0 49.2417 10 31.5672 10 17.6 17.7 UGC02627
2015-12-27T18:38:03 90.0 52.8250 10 35.4661 10 18.2 17.9 UGC02770
2015-12-27T18:48:39 90.0 53.3042 10 36.1842 10 18.3 18.0 UGC02780
2015-12-27T18:59:12 90.0 53.6958 10 36.2097 10 18.6 18.6 UGC02788
2015-12-27T19:09:49 90.0 55.3833 10 37.2256 10 17.8 18.2 UGC02817
2015-12-27T19:20:21 90.0 57.0375 10 37.4569 10 17.8 17.7 PGC165376
2015-12-27T19:31:01 90.0 58.2333 10 40.1125 10 18.8 18.9 PGC097023
2015-12-27T19:42:15 90.0 207.9833 10 -29.7647 10 18.2 18.2 PGC725406
2015-12-27T19:57:26 90.0 208.1917 10 -29.9297 10 18.4 18.4 ESO445-065
2015-12-27T20:07:55 90.0 208.4333 10 -30.5281 10 18.5 18.6 PGC089791
2015-12-27T20:18:23 90.0 208.5958 10 -30.3797 10 18.4 18.4 PGC089797
2015-12-27T20:29:00 90.0 208.3292 10 -30.6975 10 18.4 18.5 PGC714066
2015-12-27T20:39:39 90.0 208.4833 10 -30.9794 10 18.7 18.7 PGC089792
2015-12-27T20:50:13 90.0 208.5875 10 -31.1817 10 19.0 18.8 PGC184225
2015-12-27T21:00:47 90.0 208.6417 10 -31.4703 10 18.6 18.7 PGC089799
2015-12-27T21:11:22 90.0 209.6125 10 -31.7761 10 18.2 17.7 ESO445-085
2015-12-27T21:21:57 90.0 209.1333 10 -32.4886 10 16.5 -- PGC690995

V. Lipunov, E. Gorbovskoy, N.Tyurina, V.Kornilov, P.Balanutsa, A.Kuznetsov 
Lomonosov Moscow State University, Sternberg Astronomical Institute

D.Buckley, S. Potter, M. Kotze 
South African Astronomical Observatory

R. Rebolo, M. Serra-Ricart, G. Israelian, N.Lodiu
The Instituto de Astrofisica de Canarias

A. Tlatov, V.Sennik
Kislovodsk Solar Station of the Pulkovo Observatory

O. Gress, K. Ivanov, N.M. Budnev
Irkutsk State University

V.Yurkov, Yu.Sergienko, A.Gabovich
Blagoveschensk Educational State University, Blagoveschensk



MASTER-IAC  robotic telescope (MASTER-Net: http://observ.pereplet.ru, 2x4 
square degrees) located in IAC was pointed to the  LIGO/Virgo G211117 event 
(Possible Gravitational Wave Burst)  7975 sec after notice time and
1 days 58376 sec after trigger time at 2015-12-27 19:51:49 UT. Our first 
(180s exposure)  set we have 5-sigma upper limit has been about 20.0 mag 
(unfiltered).

MASTER-SAAO  robotic telescope (MASTER-Net: http://observ.pereplet.ru) 
located in SAAO was pointed to the LIGO/Virgo G211117 event 19726 sec 
after notice time and 1 days 70127 sec after trigger time at 2015-12-27 23:07:40 UT. On 
our first (180s exposure)  set we haven`t found optical transient  within 
LIGO error-box (ra=02 31 59 dec=+07 59 59 r=0.100000).
The 5-sigma upper limit has been about 20.2mag (unfiltered).
The message may be cited.


MASTER-Kislovodsk  robotic telescope (MASTER-Net: 
http://observ.pereplet.ru) located in SAAO was pointed to the  LIGO/Virgo 
G211117 event
9608 sec after notice time and 1 days 60009 sec after trigger time at 
2015-12-27 20:19:02 UT. On our first (180s exposure)  set we have
5-sigma upper about 15.3mag (unfiltered).

The full Coverage map  starting after trigger (47.5 % total probability 
- north + south segment) is  available here:
http://master.sai.msu.ru/static/G211117_MASTER_NET.png
This map includes both independently MASTER survey of the alert area on 
26th after , and Inspect images after the notice time (2015-12-27 17:38)

Four MASTER VWF  (very wide field FOV = 2 x 386 sq. degree, d=82 mm f/1.2) 
cameras at Kislovodsk and Canary Island cover 4.3 % of total probability 
field synchronously with Ligo trigger at 2015-12-26 03:38:53 UTC.
I.e we have  a set of 5 seconds images before, during and after trigger 
without time gaps.

The 3 sigma upper limit is about 11 mag at a single (5 seconds) image and 
12 mag at a coadd of 12 images with total exposure 60 sec.

Coverage map available here: 
http://master.sai.msu.ru/static/G211117_WF.png

We detected second OT during inspection.

MASTER OT J124246.31+111448.6 - possible QSO in active state not relaited 
with gravitational wave event.

MASTER-IAC auto-detection system discovered OT source at (RA, Dec) = 12h 
42m 46.31s +11d 14m 48.6s on 2015-12-28.28271 UT (error box  1 arcsec).
The OT unfiltered magnitude is 18.9m (limit 19.5m).

The OT is seen in 3 images. There is no minor planet at this place.

We have reference image without OT on 2015-12-28.25404 UT with unfiltered 
magnitude limit 20.0 m.
There is possible QSO  SDSS 124246.25+111449.0 inside our error box.
We have long story of the avout 2 magnitude variability this sources in 
Tunka nad Kislovodsk  MASTERs DataBase.

The discovery and reference images are available at:
http://master.sai.msu.ru/static/OT/124246.31111448.6.png

The reduction is continuated. 
This circular is an official product of the MASTER team.

V. Savchenko (APC, Paris, France), S. Mereghetti (IASF-Mi, Italy),
C. Ferrigno, E. Bozzo (ISDC, University of Geneva, CH) ,
E. Kuulkers (ESAC/ESA, Madrid, Spain), on behalf of a larger collaboration

The INTEGRAL spacecraft has a highly elliptical orbit and the instruments
are switched off around the perigee passage, every 2.6 days, to prevent
radiation induced damages. Unfortunately, at the time of the LIGO/Virgo
trigger G211117 (2015-12-26 03:38:53 UTC) the spacecraft was close
to the perigee between the orbits number 1625 and 1626. The data
from the anti-coincidence monitor are not available from 2015-12-25 20:57
to 2015-12-26 07:46 UTC. Yet, the narrow-field hard X-ray instruments
of INTEGRAL were pointing to the Cygnus region when the operations
resumed at 2015-12-26 07:59  (about 4.5 hours after the trigger), too far
from the trigger high probability zones to yield any meaningful limit on 
possible
long-lasting electromagnetic counterparts of the gravitational wave 
trigger.

K. C. Chambers, A. Schulz (IfA, University of Hawaii), D. Young, K. Smith, 
S. Smartt (Queen���s University Belfast),  M. Coughlin (Harvard), L. Denneau, 
H. Flewelling, A. Heinze, M. E. Huber, E. A. Magnier, N. Primak, A. Rest (STScI),  
A. Sherstyuk (IfA), B. Stalder (IfA), C. W. Stubbs (Harvard) J. Tonry, 
C. Waters (IfA), D. Wright, (QUB)

We report the observations of northern arc of the skymap defined by the 
BAYESTAR pipeline as reported GCN18728
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   with the Pan-STARRS1 telescope
(2.9 degree diameter FOV). 

We have mapped the arc from the southern point of RA=34.1174 DEC=10.129 
through to the northern tip at RA=86.394 DEC=53.6, corresponding 
to most of the 30% enclosed region in the northern arc of the BAYESTAR map. 

Observations were taken in the PS1 i-band (Tonry et al. 2012, ApJ 750, 99)
and at each pointing position a dithered sequence of 4 x 45 sec was taken, 
which will be combined as a single epoch stack. These dithered sequences
were repeated, with overlaps, to map the 30% region contiguously.  
A total of 371 individual 45 sec images were taken. 

Data taking began at  2015-12-28 05:07:49 and finished 2015-12-28 13:33:07
(UTC). 

The images are currently being differenced with respect to the Pan-STARRS
3Pi all sky i-band image (see Magnier et al. 2013, ApJS 205, 20 ; 
Huber et al. 2015,  ATel 7153) to detect transient objects. Further observations
of the region are planned as weather allows.

A.Grado (INAF-OAC), G.Greco (Urbino University/INFN Firenze), E. Brocato (INAF-OAR), M. Branchesi (Urbino University/INFN Firenze), E. Cappellaro (INAF-OAPd),  L.Amati (INAF-IASF Bo), L. A. Antonelli, (INAF-OAR), P. Astone (INFN-Roma), S. Campana, S. Covino, P. D'Avanzo (INAF-OAB),  V. D'Elia (INAF-ASDC), F. Getman (INAF-OAC), G. Giuffrida (INAF-ASDC), L. Limatola (INAF-OAC), M. Lisi (INAF-OAR), S. Marinoni, P. Marrese (INAF-ASDC), A. Melandri (INAF-OAB), L. Nicastro, E. Palazzi (INAF-IAFS Bo), E. Pian (SNS-Pisa), S. Piranomonte, L. Pulone (INAF-OAR), F. Ricci (Sapienza University), G. Stratta (Urbino University/INFN Firenze), G. Tagliaferri (INAF-OAB), V. Testa (INAF-OAR), L. Tomasella (INAF-OAPd) on behalf of the INAF Gravitational Astronomy group report: 

We observed 72 square degree of the skymap of the advanced LIGO and Virgo trigger G211117, with the VLT Survey Telescope (VST) at ESO-Paranal equipped with OMEGACAM (FOV=1 square degree). The r SDSS filter was used. 
The observations are divided in 8 regions 3 x 3 square degree each, centered on the following coordinates RA, Dec (J2000):

North
02:29:55.200 +16:13:12.00
02:38:02.208 +19:13:12.00
02:46:35.712 +22:12:33.84
02:59:40.800 +25:13:12.00
03:06:55.128 +28:13:12.00
03:18:23.712 +31:13:12.00
South
13:45:53.208 -26:48:00.00
13:39:47.208 -23:48:00.00

The first group of observations on the North area started at 2015-12-28T01:14:02.794 UT and finished at 2015-12-28T04:00:48.959 UT, while the observations in the South area started at 2015-12-28T07:51:18.143 UT and finished at 2015-12-28T08:55:27.653 UT. 
The image analysis is ongoing. Further observations of these fields are planned.

P.A. Evans (U. Leicester), J.A. Kennea (PSU), Scott Barthelmy
(NASA/GSFC), Dave Burrows (PSU), Sergio Campana (INAF-OAB), Brad Cenko
(NASA/GSFC), Neil Gehrels (NASA/GSFC), Paolo Giommi (ASI), Frank
Marshall (NASA/GSFC), John Nousek (PSU), Paul O'Brien (U. Leicester),
Julian Osborne (U. Leicester), Kim Page (U. Leicester), David Palmer
(LANL), Matteo Perri (ASDC), Judy Racusin (NASA/GSFC), Mike Siegel
(PSU), Gianpiero
Tagliaferri (INAF-OAB) report on behalf of the Swift team:

Further Swift observations have been downlinked. The observations
currently span from 140 ks to 164 ks after the aLIGO trigger, and cover

2.8 sq degrees on the sky (corrected for overlaps), and are ongoing.

Since the last Swift GCN, we have detected 3 extra X-ray sources, these
are. Each source is assigned a rank of 1-4 which describes
how likely it is to be related to the GW trigger, with 1 being the most

likely and 4 being the least likely. The ranks are described at
http://www.swift.ac.uk/ranks.php.

We have found:

* 0 sources of rank 1
* 0 sources of rank 2
* 3 sources of rank 3
* 0 sources of rank 4

We assumed a power-law spectrum with NH=3e20 cm^2, and Gamma=1.7


RANK 3 sources
==============

These are uncatalogued X-ray sources, however they are not brighter
than previous upper limits, so do not stand out as likely counterparts
to the GW trigger.

Source 3:
=============
RA: 202.5552 ( = 13h 30m 13.25s) J2000
Dec: -20.9046 ( = -20d 54' 16.6") J2000
Error: +5.3 (radius, 90% confidence).
Peak Rate: 9.6e-03 +/- 5.2e-03 ct/sec (0.3-10 keV)
Peak Flux: 4.1e-13 +/- 2.2e-13 erg cm^-2 s^-1 (0.3-10 keV)
1SXPS UL: 1.2e-03 ct/sec, (0.3-10 keV)
So the source is not significantly above the 1SXPS 3-sigma limit
RASS UL: 5.1e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)
So the source is not significantly above the RASS 3-sigma limit
There is no evidence for fading
NOTE: this source is not within 200 kpc of a GWGC galaxy.
There is 1 2MASS object within the source's 3-sigma error radius

Source 4:
=============
RA: 202.5674 ( = 13h 30m 16.18s) J2000
Dec: -20.9240 ( = -20d 55' 26.4") J2000
Error: +5.5 (radius, 90% confidence).
Peak Rate: 1.5e-02 +/- 6.5e-03 ct/sec (0.3-10 keV)
Peak Flux: 6.6e-13 +/- 2.8e-13 erg cm^-2 s^-1 (0.3-10 keV)
1SXPS UL: 1.2e-03 ct/sec, (0.3-10 keV)
So the source is not significantly above the 1SXPS 3-sigma limit
RASS UL: 5.2e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)
So the source is not significantly above the RASS 3-sigma limit
There is no evidence for fading
NOTE: this source is not within 200 kpc of a GWGC galaxy.
There is 1 2MASS object within the source's 3-sigma error radius

Source 5:
=============
RA: 202.3542 ( = 13h 29m 25.01s) J2000
Dec: -21.2270 ( = -21d 13' 37.2") J2000
Error: +5.7 (radius, 90% confidence).
Peak Rate: 2.7e-02 +/- 8.4e-03 ct/sec (0.3-10 keV)
Peak Flux: 1.1e-12 +/- 3.6e-13 erg cm^-2 s^-1 (0.3-10 keV)
RASS UL: 2.5e-02 ct/sec, 3-sigma, converted to XRT (0.3-10 keV)
So the source is not significantly above the RASS 3-sigma limit
There is no evidence for fading
NOTE: this source is not within 200 kpc of a GWGC galaxy.

This circular is an official product of the Swift team.

P.A. Evans (U. Leicester), J.A. Kennea (PSU), Scott Barthelmy
(NASA/GSFC), Dave Burrows (PSU), Sergio Campana (INAF-OAB), Brad Cenko
(NASA/GSFC), Neil Gehrels (NASA/GSFC), Paolo Giommi (ASI), Frank
Marshall (NASA/GSFC), John Nousek (PSU), Paul O'Brien (U. Leicester),
Julian Osborne (U. Leicester), Kim Page (U. Leicester), David Palmer
(LANL), Matteo Perri (ASDC), Judy Racusin (NASA/GSFC), Mike Siegel
(PSU), Gianpiero Tagliaferri (INAF-OAB) report on behalf of the Swift
team:

Swift has performed a series of 24 observations of galaxies (from the
GWGC catalogue) within the aLIGO error region for the aLIGO trigger
G211117, using the 'bayestar' GW localisation map. The observations
currently span from 140 ks to 164 ks after the aLIGO trigger, and cover
2.8 sq degrees on the sky (corrected for overlaps). Further
observations are ongoing.

We have detected 2 X-ray sources. Each source is assigned a rank of 1-4
which describes how likely it is to be related to the GW trigger, with
1 being the most likely and 4 being the least likely. The ranks are
described at http://www.swift.ac.uk/ranks.php.

We have found:

  * 0 sources of rank 1
  * 0 sources of rank 2
  * 0 sources of rank 3
  * 2 sources of rank 4

We assumed a power-law spectrum with NH=3e20 cm^2, and Gamma=1.7

RANK 4 sources
==============

These are catalogued X-ray sources, showing no signs of outburst
compared to previous observations, so they are not likely to be related
to the GW trigger.
  
  Source 1:
  =============
    RA: 	 207.3302 ( = 13h 49m 19.25s)  J2000
    Dec:	 -30.3100 ( = -30d 18' 36.0")  J2000
    Error:	 +4.1 (radius, 90% confidence).
    Peak Rate:	 1.0e+00 +/- 2.4e-01 ct/sec (0.3-10 keV)
    Peak Flux:	 4.4e-11 +/- 1.0e-11 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  1SXPS J134919.2-301834 in the 1SXPS catalogue
    Separation:  1.5" from the XRT source
    Cat Rate:	 2.6e+00 +/- 2.6e-02 ct/sec (0.3-10 keV)
    Cat Flux:	 1.1e-10 +/- 1.1e-12 erg cm^-2 s^-1 (0.3-10 keV)
       So the source is not above the catalogued flux
    There is no evidence for fading
    There is 1 GWGC galaxy within 200 kpc of the source.
    A SIMBAD object `RXC J1349.3-3018' is 2.1" away
    There are 3 2MASS objects within the source's 3-sigma error radius
  
  Source 2:
  =============
    RA: 	 202.5292 ( = 13h 30m 7.01s)  J2000
    Dec:	 -21.6998 ( = -21d 41' 59.3")  J2000
    Error:	 +5.2 (radius, 90% confidence).
    Peak Rate:	 6.2e-02 +/- 1.5e-02 ct/sec (0.3-10 keV)
    Peak Flux:	 2.7e-12 +/- 6.3e-13 erg cm^-2 s^-1 (0.3-10 keV)
    Cat Source:  1RXS J133006.8-214156 in the ROSAT/RASSFSC catalogue
    Separation:  3.9" from the XRT source
    Cat Rate:	 8.3e-02 +/- 2.4e-02 ct/sec (0.3-10 keV)
    Cat Flux:	 2.3e-12 +/- 6.9e-13 erg cm^-2 s^-1 (0.3-10 keV)
       So the source  is 0.3-sigma above the catalogued flux
    There is no evidence for fading
    NOTE: this source is not within 200 kpc of a GWGC galaxy.
    A SIMBAD object `[RKV2003] QSO J1330-2142 abs 0.3014' is 2.9" away
    There is 1 2MASS object within the source's 3-sigma error radius

This circular is an official product of the Swift team.

D.Steeghs, D.Pollacco, D.Galloway, G.Ramsay, V.Dhillon & P.O'Brien on behalf of the GOTO consortium report:


Following GCN #18728
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 , the SuperWASP Exoplanet camera on La Palma started imaging the error regions containing G211117/G211182 at 19:17 UT Dec 27 2015. The camera array has already mapped the northern lobe of the reported LIGO/VIRGO skymap 10 times over a 3.5 hr period to a depth of around V~16th. Observations are continuing.

V. Lipunov, E. Gorbovskoy, N.Tyurina, V.Kornilov, P.Balanutsa, A.Kuznetsov,
O.Gress
Lomonosov Moscow State University, Sternberg Astronomical Institute

D.Buckley
South African Astronomical Observatory


MASTER OT J020906.21+013800.1  - possible OT in PGC Galaxy.

MASTER-SAAO auto-detection system discovered OT source at (RA, Dec) = 02h
09m 06.21s +01d 38m 00.1s on 2015-12-27.85448 UT.
The OT unfiltered magnitude is 18.3m (limit 20.0m).

The OT is seen in 6 images. There is no minor planet at this place.
There is PGC1200980 galaxy (it seems spiral galaxy and distance about 100
Mpc)  very close to OT. The OT offset are  4.3E   1.5S  arcsec.

We have reference image without OT on 2015-06-07.17962 UT with unfiltered
magnitude limit 18.9m.

Spectral observations are required.

The discovery and reference images are available at:

http://master.sai.msu.ru/static/OT/020906.21013800.1.png

This circular can be cited.
-- 
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�������������� ���������������� ���������������� ������������������
http:www.pereplet.ru/avtori/lipunov.html

The Principal Investigator of MASTER Global Robotic Net
http://observ.pereplet.ru
Professor of Lomonosov Moscow State University Physics Department,
The Head of Space monitoring laboratory of Sternberg Astronomical Institute
of Lomonosov MSU

The LIGO Scientific Collaboration and Virgo report:

The online gstlal CBC analysis, which is sensitive to binary coalescence
events from systems containing neutron stars and/or black holes,
identified candidate G211117 during real-time processing of data from
LIGO Hanford Observatory (H1) and LIGO Livingston Observatory (L1) at
2015-12-26 03:38:53.648 UTC (GPS time: 1135136350.648).

The candidate was identified by an expanded low-latency pipeline
configuration that is sensitive to stellar-mass BNS, NSBH, and BBH
mergers. G211117 is an event of interest because its false alarm rate, as
determined by the online analysis, passed our stated alert threshold of
~1/month. The event's properties can be found at this URL:

https://gracedb.ligo.org/events/G211117

If confirmed as astrophysical, the system contains at least one and most
likely two black holes.

The candidate was below the threshold for detection by the low-latency
un-modeled burst searches. However, manual offline analysis with Coherent
WaveBurst (cWB) recovered a candidate with consistent timing and
amplitude, designated G211182:

https://gracedb.ligo.org/events/G211182

Two sky maps are available at this time and can be retrieved from the
GraceDB event pages:

 * bayestar.fits.gz, an initial localization generated by the BAYESTAR
   pipeline based on the CBC analysis about 2 minutes after the event. The
   probability is concentrated in two long, thin arcs. The 50% credible
   region spans about 430 deg2 and the 90% region about 1400 deg2. This is
   the preferred sky map at this time.

 * skyprobcc_cwb.fits, generated from the cWB offline analysis about six
   hours after the event. The area supported by this sky map is
   qualitatively very similar to and essentially a superset of the
   BAYESTAR sky map, with a 90% credible area of 2200 deg2.