GRB 141121A

J. Mao, Y. X. Xin, and J.-M. Bai (YNAO) report:


We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with the 2.4-meter optical telescope at Gao-Mei-Gu (GMG) station 
of Yunnan Observatory. We obtain the following results of optical counterpart:


Date begin UT r' begin UT i'
Nov. 21, 2014 17:00:04 20.45+/-0.04 17:41:21 19.90+/-0.03
Nov. 22, 2014 17:57:44 22.46+/-0.09 18:38:40 21.89+/-0.08
Nov. 25, 2014 17:16:11 21.32+/-0.05 17:36:44 20.99+/-0.04
Nov. 27, 2014 18:28:57 22.60+/-0.08 18:49:23 21.99+/-0.05


Due to the poor seeing, we could not distinguish between the afterglow and the possible host galaxy.


J. Mao apologizes for this very late GCN circular submission.

A. J. Nayana (NCRA-TIFR)  and Poonam Chandra (NCRA-TIFR) report:

We carried out the Giant Metrewave Radio Telescope (GMRT) observations of
GRB 141121A (GCN Circ 17075
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 ) in the 1390 MHz band on 2014 December 22h56m06s UT. We do
not detect radio afterglow of the GRB in this frequency. The 3-sigma upper limit at the
GRB position (GCN Circ. 17078
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 ) is 118 uJy.

We thank GMRT staff for making these observations possible.

D. A. Perley (Caltech) reports:

I observed the location of GRB 141121A (Lien et al., GCN
17075
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 ) using the imaging mode of the Low-Resolution Imaging
Spectrometer (LRIS) on the Keck I 10-meter telescope between 10:55 and 
11:16 UT on 2014-12-18.  A short sequence of exposures in g, R, and 
i-bands was acquired.

The optical counterpart (Tanga et al., GCN 17078
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 ) is clearly detected in 
all filters. Calibrating relative to SDSS, the magnitude is:

i = 23.96 +/- 0.07  (t = 27.3 days)

This measurement is significantly fainter than that reported by Toy et 
al. based on DCT observations on 2014-12-07, and the counterpart appears 
point-like in 0.8-arcsecond seeing.  This suggests that the light is 
still dominated by the afterglow.

A. Corsi (Texas Tech U.), S.B. Cenko (NASA-GSFC), A. Cucchiara (NASA-GSFC), 
D. A. Perley (Caltech), A. Horesh (Weizmann Institute), D. A. Frail (NRAO) report:

We imaged again the the position of GRB 141121A (Lien et al., GCN 17075
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 ) with 
the Karl G. Jansky Very Large Array (VLA), at a mean epoch of about 16.3 days 
after the burst. At this time, we detect the radio afterglow of GRB 141121A 
(Anderson et al., GCN 17099
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 ; van der Horst, GCN 17104
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 ; Corsi, GCN 17124
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 ), 
and estimate a preliminary flux of about 228 uJy at 6.2 GHz and 186 uJy at 14 GHz. 
The map rms is about 9 uJy at 6.2 GHz and 7 uJy at 14 GHz. 
Further observations are planned.

V. Toy (UMD), J. Capone (UMD), A. Cucchiara (NASA-GSFC), S.B. Cenko
(NASA-GSFC), E. Troja (NASA-GSFC), A. Kutyrev (NASA-GSFC), and S. Veilleux
(UMD) report on behalf of a larger collaboration:

We observed the field of GRB141121A (Swift trigger 619182, Lien et al., GCN
17075
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 ) with the Large Monolithic Imager (LMI) on the 4.3m Discovery Channel
Telescope (DCT) at Happy Jack, AZ from 2014/12/07 6:44 to 2014/12/07 11:01
UTC (starting 386.1 hours after the Swift trigger). A source is clearly
detected at the location of the optical afterglow in g', r', i', and z'.
Using nearby point sources from SDSS R8 for calibration we measure i' =
23.26 +/- 0.12.

This magnitude is reported in AB magnitude and is not corrected for
Galactic extinction in the direction of the GRB.

Compared to RATIR observations on 12/01 (Watson, GCN 17128
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 ) the afterglow
has steepened to a decay index of ~ t^-2.1.  At this time we cannot confirm
if this is the host galaxy.  Further observations are planned.

We thank the staff of the Discovery Channel Telescope for assistance with
these observations.

E. Mazaeva (IKI), A. Volnova (IKI), E. Klunko (ISTP), I. Korobtsev 
(ISTP), M. Eselevich (ISTP), A. Pozanenko (IKI) report on behalf of 
larger GRB follow-up collaboration:

We continue observations of the field of GRB 141121A (Lien et al., GCN 
17075
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 ) with AZT-33IK telescope of Sayan observatory (Mondy). We obtained 
several  images in R-filter on Nov., 30, Dec. 1 - 2. In a combined image 
we detect optical  afterglow (Tanga et al., GCN 17078
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 ; Perley et al., 
GCN 17081
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 ).

A preliminary photometry of the OT is based on nearby SDSS DR9 stars:

date       UT start   t-T0     Filter   Exp.    OT    OT_err
                       (mid, days)       (s)

2014-11-30 18:45:29    9.7139  R       119*120  22.20 0.10
2014-12-01 18:35:23   10.6644  R        72*120  22.25* 0.17
2014-12-02 18:09:52   11.6606  R        92*120  22.40* 0.25



*)Due to bad seeing the photometry  includes both afterglow and nearby 
source (Watson et al., GCN 17105
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 ; Mazaeva et al., GCN 17111
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 ).

Alan M. Watson (UNAM), Nat Butler (ASU), Alexander Kutyrev (GSFC), William H.
Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB), Ori Fox (UCB), J.
Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino Cucchiara (ORAU/GSFC),
Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico Ramirez-Ruiz (UCSC), José
A. de Diego (UNAM), Leonid Georgiev (UNAM), Jesús González (UNAM), Carlos
Román-Zúñiga (UNAM), Neil Gehrels (GSFC), and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the 1.5m
Harold Johnson Telescope at the Observatorio Astronómico Nacional on Sierra San
Pedro Mártir from 2014/12 1.30 to 2014/12 1.54 UTC (243.35 to 249.19 hours after
the BAT trigger), obtaining a total of 4.56 hours exposure in the r, i, and z
bands.

For a source within the Swift-XRT error circle, in comparison with the SDSS, we
obtain the following detections and upper limits (3-sigma):

r = 22.38 +/- 0.16
i = 22.21 +/- 0.16
z > 20.41

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

Compared to our observations on previous nights (Watson et al., GCN 17116
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 ;
Butler et al., GCN 17119
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 ), the fading appears to be slowing and is now behaving
as t^-0.5. This may be evidence for an underlying host galaxy more closely
coincident with the GRB than the candidate reported by Watson et al. (GCN
17105
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 ).

We thank the staff of the Observatorio Astronómico Nacional in San Pedro Mártir.

A. Corsi (Texas Tech U.) reports on behalf of a larger collaboration:

We imaged the position of GRB 141121A (Lien et al., GCN 17075
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 ) with the Karl G. Jansky 
Very Large Array (VLA), at a mean epoch of about 8.4 days after the burst. We detect the 
radio afterglow of GRB 141121A (Anderson et al., GCN 17099
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 ; van der Horst, GCN 17104
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 ) 
at a position consistent with the optical counterpart (Tanga et al., GCN 17078
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 ). At this time, 
we estimate a preliminary flux of about 207 uJy at 14 GHz. The map rms is about 5 uJy.

Nat Butler (ASU), Alan M. Watson (UNAM), Alexander Kutyrev (GSFC), William H.
Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB), Ori Fox (UCB), J.
Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino Cucchiara (ORAU/GSFC),
Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico Ramirez-Ruiz (UCSC), José
A. de Diego (UNAM), Leonid Georgiev (UNAM), Jesús González (UNAM), Carlos
Román-Zúñiga (UNAM), Neil Gehrels (GSFC), and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the 1.5m
Harold Johnson Telescope at the Observatorio Astronómico Nacional on Sierra San
Pedro Mártir from 2014/11 30.28 to 2014/11 30.54 UTC (218.99 to 225.08 hours
after the BAT trigger), obtaining a total of 4.98 hours exposure in the r, i and
z bands.

For a source within the Swift-XRT error circle, in comparison with the SDSS DR9,
we obtain the following detections and upper limits (3-sigma):

r = 22.32 +/- 0.07
i = 22.14 +/- 0.07
z > 21.00

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

We thank the staff of the Observatorio Astronómico Nacional in San Pedro Mártir.

E. Mazaeva (IKI), E. Klunko (ISTP), A. Volnova (IKI), I. Korobtsev 
(ISTP), M. Eselevich (ISTP), A. Pozanenko (IKI) report on behalf of 
larger GRB follow-up collaboration:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with 
AZT-33IK telescope of Sayan observatory (Mondy) Nov., 29  starting on 
(UT) 20:20:38.  We obtained several  images in R-filter under 
unfavorable seeing. In a combined image we detect optical  afterglow 
(Tanga et al., GCN 17078
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 ; Perley et al., GCN 17081
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 ).

A preliminary photometry of the OT is based on nearby SDSS DR9 stars:

date       UT start   t-T0     Filter   Exp.    OT    OT_err
                       (mid, days)       (s)

2014-11-29 20:20:38   8.7458   R        84*120  22.03 0.17

Due to bad seeing the photometry above includes both afterglow and 
possible host (Watson et al., GCN 17105
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 ; Mazaeva et al., GCN 17111
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 ).

E. Mazaeva (IKI), A. Kusakin (Fesenkov Astrophysical Institute), A. 
Volnova (IKI), I. Reva (Fesenkov Astrophysical Institute),  A. Pozanenko 
(IKI) report on behalf of larger GRB follow-up collaboration:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 )
with  Zeiss-1000 (East) 1-m telescope of Tien Shan Astronomical
Observatory  starting on Nov. 26 (UT) 22:12:24.  We obtained several 
images in R-filter. In a combined image we clearly  detect optical 
afterglow (Tanga et al., GCN 17078
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 ; Perley et al., GCN 17081
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 ).

A preliminary photometry is based on nearby SDSS DR9 stars:

date       UT start   t-T0      Filter  Exp.    OT    OT_err
                      (mid, days)        (s)

2014-11-26 22:12:24   5.8118    R       14*300  21.48 0.09

Alan M. Watson (UNAM), Nat Butler (ASU), Alexander Kutyrev (GSFC), William H.
Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB), Ori Fox (UCB), J.
Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino Cucchiara (ORAU/GSFC),
Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico Ramirez-Ruiz (UCSC), José
A. de Diego (UNAM), Leonid Georgiev (UNAM), Jesús González (UNAM), Carlos
Román-Zúñiga (UNAM), Neil Gehrels (GSFC), and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the 1.5m
Harold Johnson Telescope at the Observatorio Astronómico Nacional on Sierra San
Pedro Mártir from 2014/11 29.29 to 2014/11 29.53 UTC (195.13 to 200.87 hours
after the BAT trigger), obtaining a total of 4.62 hours exposure in the r, i and
z bands.

For a source within the Swift-XRT error circle, in comparison with the SDSS DR9,
we obtain the following detections and upper limits (3-sigma):

  r = 22.15 +/- 0.06
  i = 21.97 +/- 0.06
  z > 21.04

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

The afterglow continues to fade with a steepening temporal index.

We thank the staff of the Observatorio Astronómico Nacional in San Pedro Mártir.

Alan M. Watson (UNAM), Nat Butler (ASU), Alexander Kutyrev (GSFC), William H.
Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB), Ori Fox (UCB), J.
Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino Cucchiara (ORAU/GSFC),
Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico Ramirez-Ruiz (UCSC), José
A. de Diego (UNAM), Leonid Georgiev (UNAM), Jesús González (UNAM), Carlos
Román-Zúñiga (UNAM), Neil Gehrels (GSFC), and Harvey Moseley (GSFC) report:

We wish to correct an error in our earlier report of a faint source close to GRB
141121A (Watson et al., GCN 17105
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 ). The faint source is to the WEST of the
afterglow, not to the EAST as we reported. With this correction, our earlier
report and that of Mazaeva et al. (GCN 17111
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 ) are now in agreement.

Our preliminary astrometry, based on SDSS DR9, for the afterglow is:

  08:10:40.61 +22:13:01.7 J2000

and for the fainter source:

  08:10:40.41 +22:13:01.8 J2000

This astrometry may be refined as the afterglow fades and fainter source becomes
more clearly separated.

We thank Mazaeva et al. (GCN 17111
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 ) for bringing this error to our attention.

D. Kuroda (OAO, NAOJ),  H. Hanayama, T. Miyaji, J. Watanabe (IAO, NAOJ),
K. Yanagisawa (OAO, NAOJ), S.Nagayama (NAOJ), M. Yoshida (Hiroshima),
K. Ohta (Kyoto) and N. Kawai(Tokyo Tech)
report on behalf of the MITSuME and OISTER collaboration:

We observed the field of GRB 141121A (Lien et al., GCNC 17075)
with the optical three color (g', Rc and Ic) CCD camera attached
to the Murikabushi 1m telescope of Ishigakijima Astronomical
Observatory.

The observation started on 2014-11-28 15:13:00 (~7.5 days after the burst).
We detected the previously reported afterglow (Tanga et al., GCNC 17078;
Perley et al., GCNC 17081; Kuroda et al., GCNC 17091) in g' and Rc bands.

Three sigma upper limit and photometric results of the OT are listed below.
We used SDSS-DR7 catalog for flux calibration.

#T0+[day]  MID-UT    T-EXP[sec]  g'    g'_err  Rc    Rc_err  Ic
--------------------------------------------------------------------------
7.50078    15:51:50    2400.0    21.9  0.3     21.0  0.2     >20.5
--------------------------------------------------------------------------
T0+ : Elapsed time after the burst [day]
T-EXP: Total Exposure time [sec]

E. Mazaeva (IKI), S. Schmalz (AIP), N. Tungalag (Research Center of 
Astronomy and Geophysics MAS),  A. Volnova (IKI), I.Molotov (KIAM), A. 
Pozanenko (IKI) report on behalf of larger GRB follow-up collaboration:

We observed the field of We observed the field of GRB 141121A (Lien et 
al., GCN 17075
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 ) with ORI-40 telescope of Khureltogot observatory. We 
obtained several images in R-filter on Nov. 21 starting on (UT) 
17:07:01.  In a combined image we marginally detect optical afterglow 
(Tanga et al., GCN 17078
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 ; Perley et al., GCN 17081
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 ). Preliminary 
photometry is following and based on nearby SDSS DR9 stars:

date        UT start  t-T0       Filter  Exp.   OT    OT_err
                       (mid, days)          (s)


2014-11-21  17:07:01  0.5977     R      120*60  19.0  0.3

K. Hurley and J. Goldsten, on behalf of the MESSENGER NS GRB team,

S. Golenetskii, R. Aptekar, V. Pal'shin, D. Frederiks,
D. Svinkin, and T. Cline on behalf of the Konus-Wind team,

S. Barthelmy, J. Cummings, N. Gehrels, H. Krimm, and D. Palmer,
on behalf of the Swift-BAT team, and

A. von Kienlin, X. Zhang, A. Rau, V. Savchenko, E. Bozzo, and C.
Ferrigno, on behalf of the INTEGRAL SPI-ACS GRB team, report:

The possible initial emission episode of GRB 141121A reported by
Konus-Wind (Golenetskii et al., GCN Circ. 17108
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 ) has been also observed 
by INTEGRAL (SPI-ACS) and MESSENGER (GRNS) at about 13083 s UT 
(03:38:03; =T0(BAT)-760 s), so far.

We have triangulated it to a INTEGRAL-MESSENGER annulus centered at 
RA(2000)=46.543 deg (03h 06m 10s)  Dec(2000)=+16.630 deg (+16d 37' 49"), 
whose radius is 71.291 +/- 0.356 deg (3 sigma).

The distance between the Swift-XRT position of GRB 141121A (Evans et 
al., GCN Circ. 17080
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 ) and the central line of the annulus is 32 arcsec, 
which strengthen the association of the episode with GRB 141121A.

A triangulation map is posted at
http://www.ioffe.ru/LEA/GRBs/GRB141121A/IPN/

E. Mazaeva (IKI), A. Volnova (IKI), E. Klunko (ISTP), I. Korobtsev 
(ISTP), M. Eselevich (ISTP), A. Pozanenko (IKI) report on behalf of 
larger GRB follow-up collaboration:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with 
AZT-33IK telescope of Sayan observatory (Mondy) on Nov., 27  starting 
(UT) 19:13:37.  We obtained several  images in R-filter ander favorable 
weather and mean FWHM of 1.8 arcsec. In a combined image we clearly 
detect optical  afterglow (Tanga et al., GCN 17078
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 ; Perley et al., GCN 
17081
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 ). We do not detect the nearby source reported in (Watson et al., 
GCN 17075
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 ). Instead of we detect a Source (possible host?) 3 arcsec to 
the West from OT. The Source is absent in SDSS DR9. Coordinates of the 
OT and the Source are

OT
(J2000)
08 10 40.55 +22 13 03.0
with accuracy of  0.4" in both coordinates

The Source to the West
(J2000)
08 10 40.35 +22 13 03.0
with accuracy of  0.5" in both coordinates

Astrometry solutions are based on USON-B1.0 catalog.

A preliminary photometry of the OT is based on nearby SDSS  stars:

date       UT start   t-T0     Filter   Exp.    OT    OT_err
                       (mid, days)       (s)

2014-11-27 19:13:37   6.6923   R        72*120  21.57 0.05

And preliminary photometry of the Source is R 22.95 �� 0.11.
The source is barely visible in our earlier observations (Mazaeva et 
al., GCN 17102
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 ) and photometry of the early observation reported in 
(Mazaeva et al., GCN 17102
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 ) might be biased of this Source.

The finding chart can be found in
http://grb.rssi.ru/GRB141121A/GRB141121A.Mondy_host_chart.png

A. Pozanenko (IKI), P. Minaev (IKI),  V. Vybornov (IKI), A. Volnova 
(IKI), E. Mazaeva (IKI)  report:

We inspected the SPI-ACS data  of INTEGRAL observatory covering trigger 
time of the Swift GRB 141121A (Lien et al., GCN 17075
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 ) and MAXI/GSC 
(Honda et al., GCN 17077
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 ). At the BAT/Swift trigger time of the GRB 
141121A (UT) T0=03:50:43 we do not found any significant emission above 
background in SPI-ACS data in different time scales (0.05 s, 5 s, and 50 
s).  We also do not find any activity at the second BAT episode (T0+550 
s to T0+675 s).

At the time of about T0-800 s we found in SPI-ACS data the activity 
corresponding to the first Konus-Wind episode (Golenetskii et al., GCN 
17108
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 ). The duration of the activity is about 200 s and clearly visible 
in SPI-ACS light curve. The start time of the maximal count rate of 
SPI-ACS light curve (binning with 50 s bin duration) is T0-725 s. In 
both cases TO and T0-725 s the boresight of SPI-ACS is the same and 
equal to 119 degrees. If this episode is related to the GRB 141121A and 
taking into account SPI-ACS energy threshold (>~ 80 keV) one can suggest 
the this episode of GRB 141121A is harder than main activity detected by 
BAT/Swift.

We do not detect any significant activity at the time of the MAXI/GSC 
detection (Honda et al., GCN 17077
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 ).

The SPI-ACS light curves can be found at

http://grb.rssi.ru/GRB141121A/grb141121_spi-acs_50sec.png
http://grb.rssi.ru/GRB141121A/grb141121_spi-acs_5sec.png

Nat Butler (ASU), Alan M. Watson (UNAM), Alexander Kutyrev (GSFC), William H.
Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB), Ori Fox (UCB), J.
Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino Cucchiara (ORAU/GSFC),
Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico Ramirez-Ruiz (UCSC), José
A. de Diego (UNAM), Leonid Georgiev (UNAM), Jesús González (UNAM), Carlos
Román-Zúñiga (UNAM), Neil Gehrels (GSFC), and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the 1.5m
Harold Johnson Telescope at the Observatorio Astronómico Nacional on Sierra San
Pedro Mártir from 2014/11 28.29 to 2014/11 28.54 UTC (171.20 to 177.06 hours
after the BAT trigger), obtaining a total of 4.62 hours exposure in the r, i,
and z bands.

For a source within the Swift-XRT error circle, in comparison with the SDSS DR9,
we obtain the following detections and upper limits (3-sigma):

r = 21.87 +/- 0.05
i = 21.62 +/- 0.05
z > 21.03

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

Compared to our previous observations (Butler et al., GCN 17101
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 ; Watson et al.,
GCN 17105
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 ), the afterglow continues to fade roughly as t^-1.7.

We thank the staff of the Observatorio Astronómico Nacional in San Pedro Mártir.

S. Golenetskii, R.Aptekar, D. Frederiks, V. Pal'shin, P. Oleynik,
M. Ulanov, D. Svinkin, A. Tsvetkova, A.Lysenko, and T. Cline,
on behalf of the Konus-Wind team, report:

The long GRB 141121A (Swift-BAT trigger #619182: Lien et al., GCN 17075
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 ;
Krimm et al., GCN 17083
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 ; MAXI/GSC detection: Honda et al., GCN 17077
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 )
was detected by Konus-Wind in the waiting mode.

The burst light curve shows two emission episodes. The first started at 
~T0(BAT)-870 s with a duration of about 190 s and the second weaker 
episode, which corresponds to the first BAT episode reported in GCN 
17075
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 , started at ~T0(BAT)+50 s with a duration of about 270 s. The 
second BAT episode (from T0(BAT)+550 to T0(BAT)+675 s) is not seen in KW 
data.

The first KW episode is likely related to GRB 141121A, since the KW 
ecliptic latitude response and IPN localization of the episode are 
consistent with the position of GRB 141121A. The details of the IPN 
localization will be given in a forthcoming GCN circular. During the 
first episode the burst source was outside the BAT FoV (private 
communication with the BAT team).

The total burst duration is about 1200 s. Such a long duration and long 
periods of low-level emission or quiescence is common for ultra-long GRB.

The KW light curve contains several data gaps. One of them (from 
~T0(BAT)-670 s to ~T0(BAT)-270 s) may bias the estimated duration of the 
first episode. The MAXI/GSC detection at ~T0(BAT)-356 s falls into this gap.

As observed by Konus-Wind, the first episode had a fluence of ~8x10^-6 
erg/cm2 and a 2.944 s peak flux, measured from ~T0(BAT)-752 s, of 
~2x10^-7 erg/cm2/s (both estimated in the 20 keV - 10  MeV energy 
range). The second episode had a fluence of ~6x10^-6 erg/cm2 estimated 
in the same energy range.

Assuming the redshift z=1.47 (Perley et al., GCN 17081
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 )
and a standard cosmology model with H_0 = 70 km/s/Mpc,
Omega_M = 0.27, and Omega_Lambda = 0.73,
we estimate the following rest-frame parameters:
the isotropic energy release E_iso is ~8x10^52 erg,
the peak luminosity L_iso is ~10^51 erg/s.

The K-W light curve of this burst is available at
http://www.ioffe.ru/LEA/GRBs/GRB141121A/

A.S. Moskvitin and V.N. Komarova report on behalf of a larger team:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 )
with the SAO RAS 1-m Zeiss-1000 telescope at three nights:
2014.11.24/25, 25/26, 26/27.

The GRB OT (Tanga et al., GCN 17078
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 ) is clearly detected
in our stacked frames each night. Our charts can be found at
ftp://ftp.sao.ru/pub/grb/GRB141121A/GRB141121A_z1000_24_25_26.jpg

We used nearby SDSS stars for calibration. The "ugriz" magnitudes
were converted to "UBVRI" with the Lupon-2005 equations. Our OT
brightness measurements are in good agreement with R-band values
estimated within the close epochs and reported in the GCN circulars:
Kuroda et al. (GCN 17098
Loading...
 
 ), Mazaeva et al. (GCN 17102
Loading...
 
 ). Our OT
magnitudes are also similar to r-band measurements by Watson et al.
(GCN 17100
Loading...
 
 ) and Butler et al. (GCN 17101
Loading...
 
 ).
Our preliminary results are presented in the following table:
-----------------------------------------------------
Date   T-T0  UT_start-end Exp.,s  R_mag
-----------------------------------------------------
24.942 3.782 20:14--00:59  900 20.31+/-0.09
25.956 4.796 22:16--23:38 3600 20.86+/-0.04
26.980 5.820 22:12--00:50 4800 21.36+/-0.09
-----------------------------------------------------

Alan M. Watson (UNAM), Nat Butler (ASU), Alexander Kutyrev (GSFC), William H.
Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB), Ori Fox (UCB), J.
Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino Cucchiara (ORAU/GSFC),
Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico Ramirez-Ruiz (UCSC), José
A. de Diego (UNAM), Leonid Georgiev (UNAM), Jesús González (UNAM), Carlos
Román-Zúñiga (UNAM), Neil Gehrels (GSFC), and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the 1.5m
Harold Johnson Telescope at the Observatorio Astronómico Nacional on Sierra San
Pedro Mártir from 2014/11 27.31 to 2014/11 27.54 UTC (147.50 to 153.22 hours
after the BAT trigger), obtaining a total of 4.62 hours exposure in the r, i and
z bands.

For a source within the Swift-XRT error circle, in comparison with the SDSS DR9,
we obtain the following detections:

r = 21.59 +/- 0.04
i = 21.39 +/- 0.04
z = 20.89 +/- 0.26

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

The afterglow has faded by about 0.33 magnitudes in r and i compared to our
observations at 126 hours (Butler et al., GCN 17101
Loading...
 
 ). This corresponds to a
further steepening of the temporal power law from t^-1.3 between 102 and 126
hours (Watson et al., GCN 17100
Loading...
 
 ) to t^-1.8 between 126 and 150 hours.

We detect a source 2.3 arcsec to the east of the optical transient, with r =
23.22 +/- 0.13, i = 23.11 +/- 0.13, and z > 21.02. This source is visible in
earlier images, but due to its proximity to the brighter optical transient our
automatic pipeline failed to produce photometry for it from those earlier
images. We expect better photometry for this source once the afterglow has faded
further.

For a flat universe with H0 = 70 km/s/Mpc and OmegaM = 0.29, and at a redshift
of 1.47 (Perley et al., GCN 17081
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 ) the angular separation of the afterglow and
this source corresponds to a projected separation of 20 kpc. This separation is
consistent with the source being the host galaxy of the GRB.

If this source is the host galaxy, our photometry suggests that it is among the
brightest ever observed at this redshift for optically bright GRBs (Hjorth et
al. 2012, ApJ, 756, 187; Perley et al. 2013, ApJ, 778, 128).

We thank the staff of the Observatorio Astronómico Nacional in San Pedro Mártir.

A.J. van der Horst (University of Amsterdam) reports on behalf
of a large collaboration:

"We observed the position of the GRB 141121A afterglow at 4.9 GHz with
the Westerbork Synthesis Radio Telescope at November 26 22.54 UT to
November 27 09.34 UT, i.e. 5.78 - 6.23 days after the burst (GCN 17075
Loading...
 
 ).
We detect a radio source with a flux density of 0.17 +/- 0.04 mJy
at the position of the optical counterpart (GCN 17078
Loading...
 
 ).

We would like to thank the WSRT staff for scheduling and obtaining
these observations."

A. Volnova (IKI), I. Reva (Fesenkov Astrophysical Institute), A. Kusakin 
(Fesenkov Astrophysical Institute), E. Mazaeva (IKI), A. Pozanenko (IKI) 
report on behalf of larger GRB follow-up collaboration:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 )
with  Zeiss-1000 (East) 1-m telescope of Tien Shan Astronomical
Observatory  starting on Nov. 22 (UT) 21:45:26.  We obtained several 
images in R-filter. In a combined image we clearly  detect optical 
afterglow (Tanga et al., GCN 17078
Loading...
 
 ; Perley et al., GCN 17081
Loading...
 
 ).

A preliminary photometry is based on nearby SDSS DR9 stars:

date       UT start   t-T0      Filter  Exp.    OT   OT_err
                      (mid, days)        (s)

2014-11-22 21:45:26   1.8093    R       26*300  20.88  0.03

E. Mazaeva (IKI), E. Klunko (ISTP), I. Korobtsev (ISTP), M. Eselevich 
(ISTP), A. Volnova (IKI), A. Pozanenko (IKI) report on behalf of larger 
GRB follow-up collaboration:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 ) with 
AZT-33IK telescope of Sayan observatory (Mondy) on Nov., 26  starting on 
(UT) 20:16:58.  We obtained several  images in R-filter. In a combined 
image we clearly  detect optical  afterglow (Tanga et al., GCN 17078
Loading...
 
 ; 
Perley et al., GCN 17081
Loading...
 
 ).

A preliminary photometry is based on nearby SDSS  stars:

date       UT start   t-T0     Filter   Exp.    OT    OT_err
                               (mid, days)       (s)

2014-11-26 20:16:58   5.7120   R        39*120  21.38 0.09

The magnitude of the afterglow decreased about 0.9 mag since our 
previous observation (Mazaeva et al., GCN 17093
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 ) at 2.74 days after the 
burst trigger and thus we confirm gradual steepening of the afterglow 
light curve (Butler et al., GCN 17101
Loading...
 
 ).

Nat Butler (ASU), Alan M. Watson (UNAM), Alexander Kutyrev (GSFC),
William H. Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB), Ori
Fox (UCB), J. Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino
Cucchiara (ORAU/GSFC), Eleonora Troja (GSFC), Owen Littlejohns (ASU),
Enrico Ramirez-Ruiz (UCSC), José A. de Diego (UNAM), Leonid Georgiev
(UNAM), Jesús González (UNAM), Carlos Román-Zúñiga (UNAM), Neil Gehrels
(GSFC), and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on
the 1.5m Harold Johnson Telescope at the Observatorio Astronómico
Nacional on Sierra San Pedro Mártir from 2014/11 26.31 to 2014/11 26.53
UTC (123.55 to 128.80 hours after the BAT trigger), obtaining a total of
4.04 hours exposure in the r, i and z bands.

For a source within the Swift-XRT error circle, in comparison with the
SDSS DR9, we obtain the following detections and upper limits (3-sigma):

r = 21.27 +/- 0.04
i = 21.04 +/- 0.04
z > 21.04

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

The afterglow has faded by about 0.3 magnitudes in r and i compared to
our observations at 102 hours (Watson et al., GCN 17100
Loading...
 
 ). This
corresponds to a further steepening of the temporal power law from
t^-0.9 between 78 and 102 hours (Watson et al., GCN 17100
Loading...
 
 ) to t^-1.3
between 102 and 126 hours.

We thank the staff of the Observatorio Astronómico Nacional in San Pedro
Mártir.

Alan M. Watson (UNAM), Nat Butler (ASU), Alexander Kutyrev (GSFC),
William H. Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB),
Ori Fox (UCB), J. Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino
Cucchiara (ORAU/GSFC), Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico
Ramirez-Ruiz (UCSC), José A. de Diego (UNAM), Leonid Georgiev (UNAM),
Jesús González (UNAM), Carlos Román-Zúñiga (UNAM), Neil Gehrels (GSFC),
and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on
the 1.5m Harold Johnson Telescope at the Observatorio Astronómico
Nacional on Sierra San Pedro Mártir from 2014/11 25.27 to 2014/11 25.54
UTC (98.75 to 105.00 hours after the BAT trigger), obtaining a total of
4.58 hours exposure in the r, i, and z bands.

For a source within the Swift-XRT error circle, in comparison with the
SDSS DR9, we obtain the following detections and upper limits (3-sigma):

 r = 20.96 +/- 0.04
 i = 20.75 +/- 0.04
 z > 19.93

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

The afterglow has faded by about 0.25 magnitudes in r and i compared to
our observations at 78 hours (Butler et al., GCN 17096
Loading...
 
 ). This
corresponds to a steepening of the temporal power law from t^-0.2
between 54 and 78 hours (Butler et al., GCN 17096
Loading...
 
 ) to t^-0.9 between 78
and 102 hours.

We thank the staff of the Observatorio Astronómico Nacional in San Pedro
Mártir.

G. E. Anderson, R. P. Fender, T. D. Staley (University of Oxford), 
A. J. van der Horst (University of Amsterdam), A. Rowlinson (CASS)

We observed the position of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 )
at 15 GHz with the Arcminute Microkelvin Imager (AMI-LA) starting on 
2014 Nov 24.17 to 24.33 UT, corresponding to 3 days post-burst. We 
have detected a radio source coincident with the optical counterpart 
(Tanga et al., GCN 17078
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 ) with a preliminary flux of 0.46 +/- 0.05 mJy.

Earlier observations were conducted on 2014 Nov 21.16 to 21.25 UT and 
Nov 22.05 to 22.21 UT, corresponding to <6 minutes and 0.9 days post-burst,
yielding a 3 sigma flux upper limit of 0.26 mJy and a marginal detection of 
0.18 +/- 0.06 mJy, respectively.

Further AMI monitoring is planned. We thank the AMI staff for scheduling these observations.

D. Kuroda (OAO, NAOJ),  H. Hanayama, T. Miyaji, J. Watanabe (IAO, NAOJ),
K. Yanagisawa (OAO, NAOJ), S.Nagayama (NAOJ), M. Yoshida (Hiroshima),
K. Ohta (Kyoto) and N. Kawai(Tokyo Tech)
report on behalf of the MITSuME and OISTER collaboration:

We observed the field of GRB 141121A (Lien et al., GCNC 17075)
with the optical three color (g', Rc and Ic) CCD camera attached
to the Murikabushi 1m telescope of Ishigakijima Astronomical
Observatory.

The observation started on 2014-11-24 17:17:04 UT (~3.6 days after the burst).
We detected the previously reported afterglow (Tanga et al., GCNC 17078;
Perley et al., GCNC 17081; Kuroda et al., GCNC 17091) in all the three bands.

Photometric results of the OT are listed below.
We used SDSS-DR7 catalog for flux calibration.

#T0+[day]  MID-UT    T-EXP[sec]  g'    g'_err  Rc    Rc_err  Ic    Ic_err
--------------------------------------------------------------------------
3.60810    18:26:22    5100.0    21.39 0.13    20.37 0.08    19.90 0.12
--------------------------------------------------------------------------
T0+ : Elapsed time after the burst [day]
T-EXP: Total Exposure time [sec]

Nat Butler (ASU), Alan M. Watson (UNAM), Alexander Kutyrev (GSFC),
William H. Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB),
Ori Fox (UCB), J. Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino
Cucchiara (ORAU/GSFC), Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico
Ramirez-Ruiz (UCSC), José A. de Diego (UNAM), Leonid Georgiev (UNAM),
Jesús González (UNAM), Carlos Román-Zúñiga (UNAM), Neil Gehrels (GSFC),
and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the
1.5m Harold Johnson Telescope at the Observatorio Astronómico Nacional on
Sierra San Pedro Mártir from 2014/11 24.27 to 2014/11 24.53 UTC (74.70
to 80.86 hours after the BAT trigger), obtaining a total of 4.93 hours
exposure in the r, i, and z band.

For a source within the Swift-XRT error circle, in comparison with the
SDSS DR9, we obtain the following detections and upper limits
(3-sigma):

r = 20.68 +/- 0.03
i = 20.51 +/- 0.04
z > 20.48

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

The afterglow has faded by about 0.08 magnitudes in r and i compared
to our observations at 54 hours (Watson et al., GCN 17090
Loading...
 
 ). This
corresponds to a shallow decay close to t^-0.2. Thus, the
rebrightening reported by Watson et al. (GCN 17090
Loading...
 
 ) and confirmed by
Dichiara et al. (GCN 17092
Loading...
 
 ) appears to have ended.

We thank the staff of the Observatorio Astronómico Nacional in San Pedro
Mártir.

E. Mazaeva (IKI), E. Klunko (ISTP), A. Volnova (IKI), M. Eselevich 
(ISTP), I. Korobtsev (ISTP), A. Pozanenko (IKI) report on behalf of 
larger GRB follow-up collaboration:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 ) with 
AZT-33IK telescope of Sayan observatory (Mondy) on Nov., 23  starting on 
(UT) 20:57:39.  We obtained several  images in R-filter. In a combined 
image we clearly  detect optical  afterglow (Tanga et al., GCN 17078
Loading...
 
 ; 
Perley et al., GCN 17081
Loading...
 
 ).

A preliminary photometry is based on nearby SDSS  stars:

date       UT start   t-T0     Filter   Exp.    OT    OT_err
                               (mid, days)       (s)

2014-11-23 20:57:39   2.74025  R        39*120  20.53 0.04

We confirm re-brightening of the afterglow reported early (Watson et al. 
GCN 17090
Loading...
 
 ; Kuroda et al. GCN  17091
Loading...
 
 ; Dichiara  et al. GCN 17092
Loading...
 
 ).

S. Dichiara and C. Guidorzi (U. Ferrara) on behalf of
a large collaboration report:

The Las Cumbres Observatory 2-m Faulkes Telescope North in
Hawaii re-observed Swift GRB 141121A (Lien et al. GCN
Circ 17075
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 ) on November 23 at 10:43:39 UT, i.e. ~2.29 days
after the BAT trigger, with the r' and i' filters.

We confirm the rebrightening of the optical afterglow
reported by RATIR (Watson et al. GCN 17090
Loading...
 
 ) with the
following magnitudes:

Mid time from  Total Exp   Filter    Magnitude
trigger (days)  (s)
-------------------------------------------------
2.31           120x10       r'        20.61 +- 0.04
2.29           120x10       i'        20.34 +- 0.05
-------------------------------------------------

Magnitudes are calibrated against nearby SDSS stars.
Observations are going on.

D. Kuroda (OAO, NAOJ),  H. Hanayama, T. Miyaji, J. Watanabe (IAO, NAOJ),
K. Yanagisawa (OAO, NAOJ), S.Nagayama (NAOJ), M. Yoshida (Hiroshima),
K. Ohta (Kyoto) and N. Kawai(Tokyo Tech)
report on behalf of the MITSuME and OISTER collaboration:

We observed the field of GRB 141121A (Lien et al., GCNC 17075)
with the optical three color (g', Rc and Ic) CCD camera attached
to the Murikabushi 1m telescope of Ishigakijima Astronomical
Observatory.

The observation started on 2014-11-23 17:42:18 UT (~2.6 days after the burst).
We detected the previously reported afterglow (Tanga et al., GCNC 17078;
Perley et al., GCNC 17081) in all the three bands.

Photometric results of the OT are listed below.
We used SDSS-DR7 catalog for flux calibration.

#T0+[day]  MID-UT    T-EXP[sec]  g'    g'_err  Rc    Rc_err  Ic    Ic_err
--------------------------------------------------------------------------
2.61049    18:29:49    4800.0    21.02 0.08    20.44 0.07    19.64 0.09
--------------------------------------------------------------------------
T0+ : Elapsed time after the burst [day]
T-EXP: Total Exposure time [sec]

Alan M. Watson (UNAM), Nat Butler (ASU), Alexander Kutyrev (GSFC),
William H. Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB),
Ori Fox (UCB), J. Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino
Cucchiara (ORAU/GSFC), Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico
Ramirez-Ruiz (UCSC), José A. de Diego (UNAM), Leonid Georgiev (UNAM),
Jesús González (UNAM), Carlos Román-Zúñiga (UNAM), Neil Gehrels (GSFC),
and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the
1.5m Harold Johnson Telescope at the Observatorio Astronómico Nacional on
Sierra San Pedro Mártir from 2014/11 23.31 to 2014/11 23.54 UTC (51.53
to 57.18 hours after the BAT trigger), obtaining a total of 3.80 hours
exposure in the r, i and z bands.

For a source within the Swift-XRT error circle, in comparison with the
SDSS DR9, we obtain the following detections:

 r = 20.60 +/- 0.03
 i = 20.44 +/- 0.03
 z = 20.06 +/- 0.29

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

The afterglow appears to have rebrightened by about 0.24 magnitudes in
r and i compared to our observations at 30 hours (Butler et al., GCN
17087
Loading...
 
 ).

We thank the staff of the Observatorio Astronómico Nacional in San Pedro
Mártir.

E. Mazaeva (IKI), R. Inasaridze (AAO), A. Volnova (IKI), Molotov (KIAM), 
A. Pozanenko (IKI) report on behalf of larger GRB follow-up collaboration:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with AS-32 
(0.7m) telescope of Abastumani Observatory. Observations were performed 
under mean seeing (FWHM) of 3.5". We obtained several unfiltered images 
on Nov. 21 starting on (UT) 20:01:35.  Within enhanced XRT position 
(Evans et al., GCN 17080
Loading...
 
 ) we clearly detected  afterglow of GRB 141109A 
(Tanga et al., GCN 17078
Loading...
 
 ; Perley et al., GCN 17081
Loading...
 
 ). Preliminary 
photometry is following:

date       UT start  t-T0        Filter  Exp.    OT    OT_err
                      (mid, days)         (s)

2014-11-21 20:01:35  0.73241     clear   54*120  20.08 0.05

The photometry is based on several SDSS-DR9 stars R magnitudes 
transformed from SDSS-DR9 based on Lupton transformations:

SDSS_id                 R(Lupton)
J081028,70+221318,9     16,317
J081049,68+221012,2     17,148
J081048,76+220822,7     14,413
J081106,66+221346,9     14,626

S. Kurita, Y. Saito, Y. Tachibana, T. Yoshii, H. Ohuchi, Y. Yano,
Y. Ono, T. Fujiwara, Y. Yatsu, and N. Kawai (Tokyo Tech)
report on behalf of the MITSuME collaboration:

We observed the field of GRB 141121A (Lien et al., GCN Circular #17075
Loading...
 
 ) with the 
optical three color (g', Rc, and Ic) CCD cameras attached to the MITSuME 50 cm
telescope of Akeno Observatory, Yamanashi, Japan.

The observation started on 2014-11-21 12:59:47 UT (~9 h after the burst).
We detected the previously reported optical afterglow (Tanga et al., GCN Circular #17078
Loading...
 
 ) in the g',Rc and Ic band.

The measured magnitudes are listed below.

T0+[sec]  MID-UT  T-EXP[sec]    g'                Rc             Ic
----------------------------------------------------------------------
32947      17:07:07  12840     20.8 +/- 0.2  19.7 +/- 0.1  19.4 +/- 0.2
----------------------------------------------------------------------
T0+ : Elapsed time after the burst 
T-EXP: Total Exposure time 
We used GSC2.3 catalog for flux calibration.

Nat Butler (ASU), Alan M. Watson (UNAM), Alexander Kutyrev (GSFC),
William H. Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB),
Ori Fox (UCB), J. Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino
Cucchiara (ORAU/GSFC), Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico
Ramirez-Ruiz (UCSC), José A. de Diego (UNAM), Leonid Georgiev (UNAM),
Jesús González (UNAM), Carlos Román-Zúñiga (UNAM), Neil Gehrels (GSFC),
and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
Loading...
 
 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the
1.5m Harold Johnson Telescope at the Observatorio Astronómico Nacional on
Sierra San Pedro Mártir from 2014/11 22.28 to 2014/11 22.53 UTC (26.79
to 32.94 hours after the BAT trigger), obtaining a total of 4.93 hours
exposure in the r, i and z bands.

For a source within the Swift-XRT error circle, in comparison with the SDSS
DR9, we
obtain the following detections and upper limits (3-sigma):

 r 20.84 +/- 0.03
 i 20.68 +/- 0.03
 z > 20.02

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

The source has faded in r and i by 1.2 magnitudes or roughly t^-0.73 since
our observations on the first night (Watson et al., GCN 17084
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 ), confirming
that it is the afterglow. This fading is steeper than the t^-0.15 fading
seeing during our observations on the first night.

We thank the staff of the Observatorio Astronómico Nacional in San Pedro
Mártir.

D.N. Burrows (PSU), C. Pagani (U. Leicester), A.P. Beardmore (U.
Leicester), P.A. Evans (U. Leicester), B. Sbarufatti (INAF-OAB/PSU), P.
D'Avanzo (INAF-OAB), V. D'Elia (ASDC), J.A. Kennea (PSU), V. Mangano
(PSU) and A.Y. Lien report on behalf of the Swift-XRT team:

We have analysed 7.3 ks of XRT data for GRB 141121A (Lien  et al. GCN
Circ. 17075
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 ),  from 355 s to 58.1 ks after the	BAT trigger. The data
comprise 305 s in Windowed Timing (WT) mode (the first 5 s were taken
while Swift was slewing) with the remainder in Photon Counting (PC)
mode. The enhanced XRT position for this burst was given by Evans et
al. (GCN Circ. 17080
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 ).

The late-time light curve (from T0+3.8 ks) can be modelled with a
series of power-law decays. The initial decay index is alpha=1.50
(+/-0.13). At T+15.8 ks  the decay steepens to an alpha of 4.3 (+1.2,
-0.7) before breaking again at T+25.6 ks to a final decay with index
alpha=0.1 (+0.6, -1.5).

A spectrum formed from the WT mode data can be fitted with an absorbed
power-law with a photon spectral index	of 1.52 (+/-0.04). The
best-fitting absorption column is  6.2 (+/-1.0) x 10^21 cm^-2, at a
redshift of 1.47, in addition to the Galactic value of 4.3 x 10^20
cm^-2 (Willingale et al. 2013). The PC mode spectrum has a photon index
of 1.93 (+/-0.12) and a best-fitting absorption column of 3.9 (+2.2,
-2.0) x 10^21 cm^-2. The counts to observed (unabsorbed) 0.3-10 keV
flux conversion factor deduced from this spectrum  is 3.4 x 10^-11 (4.1
x 10^-11) erg cm^-2 count^-1. 

A summary of the PC-mode spectrum is thus:
Galactic foreground: 4.3 x 10^20 cm^-2
Intrinsic column:    3.9 (+2.2, -2.0) x 10^21 cm^-2 at z=1.47
Photon index:	     1.93 (+/-0.12)

If the light curve continues to decay with a power-law decay index of
0.1, the count rate at T+24 hours will be 0.032 count s^-1,
corresponding to an observed (unabsorbed) 0.3-10 keV flux of 1.1 x
10^-12 (1.3 x 10^-12) erg cm^-2 s^-1.

The results of the XRT-team automatic analysis are available at
http://www.swift.ac.uk/xrt_products/00619182.

This circular is an official product of the Swift-XRT team.

F. E. Marshall (NASA/GSFC) and A. Y. Lien (GSFC/UMBC)
report on behalf of the Swift/UVOT team:

The Swift/UVOT began settled observations of the field of GRB 141121A
371 s after the BAT trigger (Lien et al., GCN Circ. 17075
Loading...
 
 ).
A source consistent with the optical position
(Tanga et al. GCN Circ. 17078
Loading...
 
 )
is detected in the initial UVOT exposures.

The preliminary UVOT position is:
   RA  (J2000) =  08:10:40.63 = 122.66928 (deg.)
   Dec (J2000) =  22:13:02.2  =  22.21728 (deg.)
with an estimated uncertainty of 0.5 arcsec. (radius, 90% confidence).

The source shows an unusual light curve with little evidence for variability.
The source is detected in all UVOT filters although the detections in v and w2
are not highly significant. Preliminary detections and 3-sigma upper limits 
using the UVOT photometric system
(Breeveld et al. 2011, AIP Conf. Proc. 1358, 373) for the early exposures are:

Filter         T_start(s)   T_stop(s)      Exp(s)           Mag

white              371          520          147        >20.1
white             6067         6266          197         20.2 +/- 0.2
v                  527          547           19        >18.3
v                15373        16025          635         20.3 +/- 0.3
b                 5862         6062          197         19.8 +/- 0.2
u                 5562         5714          149         19.4 +/- 0.2
u                27756        28325          556         19.3 +/- 0.1
w1                3830         3897           66         19.4 +/- 0.3
w1               26850        27750          886         19.7 +/- 0.1
m2               21039        21939          886         20.4 +/- 0.2
w2                9514        12083          771         21.2 +/- 0.3

The magnitudes in the table are not corrected for the Galactic extinction
due to the reddening of E(B-V) = 0.05 in the direction of the burst
(Schlegel et al. 1998).

Alan M. Watson (UNAM), Nat Butler (ASU), Alexander Kutyrev (GSFC), William H.
Lee (UNAM), Michael G. Richer (UNAM), Chris Klein (UCB), Ori Fox (UCB), J.

Xavier Prochaska (UCSC), Josh Bloom (UCB), Antonino Cucchiara (ORAU/GSFC),
Eleonora Troja (GSFC), Owen Littlejohns (ASU), Enrico Ramirez-Ruiz (UCSC), Jos��
A. de Diego (UNAM), Leonid Georgiev (UNAM), Jes��s Gonz��lez (UNAM), Carlos
Rom��n-Z����iga (UNAM), Neil Gehrels (GSFC), and Harvey Moseley (GSFC) report:

We observed the field of GRB 141121A (Lien et al., GCN 17075
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 ) with the
Reionization and Transients Infrared Camera (RATIR; www.ratir.org) on the 1.5m
Harold Johnson Telescope at the Observatorio Astron��mico Nacional on Sierra San
Pedro M��rtir from 2014/11 21.33 to 2014/11 21.53 UTC (4.00 to 8.84 hours after
the BAT trigger), obtaining a total of 3.78 hours exposure in the r, i and z
bands.

For a source within the Swift-XRT error circle, in comparison with the SDSS DR9,
we obtain the following detections:


r	19.62 +/- 0.02
i	19.45 +/- 0.02
z	19.76 +/- 0.12

These magnitudes are in the AB system and are not corrected for Galactic
extinction in the direction of the GRB.

Over the course of our observations, the flux in r and i fades slightly as
t^-0.15, with t measured from the time of the BAT trigger. Our measurements in z
are noisier, but consistent with this shallow decay.

We confirm this as the afterglow reported by Tanga et al. (GCN 17078
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 ) and
Dichiara et al. (GCN 17082
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 ), for which Perley et al. (GCN 17081
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 ) report a
spectroscopic redshift of 1.47.

We thank the staff of the Observatorio Astron��mico Nacional in San Pedro M��rtir.

The RATIR team congratulates the Swift team on 10 years of operation.

H. A. Krimm (GSFC/USRA), S. D. Barthelmy (GSFC), W. H. Baumgartner (GSFC/UMBC),
J. R. Cummings (GSFC/UMBC), N. Gehrels (GSFC), A. Y. Lien (GSFC/UMBC),
C. B. Markwardt (GSFC), D. M. Palmer (LANL), T. Sakamoto (AGU),
M. Stamatikos (OSU), J. Tueller (GSFC), T. N. Ukwatta (LANL)
(i.e. the Swift-BAT team):

Using the data set from T-239 to T+963 sec from the recent telemetry downlink,
we report further analysis of BAT GRB 141121A (trigger #619182)
(Lien, et al., GCN Circ. 17075
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 ).  The BAT ground-calculated position is
RA, Dec = 122.665, 22.206 deg which is
    RA(J2000)  =  08h 10m 39.5s
    Dec(J2000) = +22d 12' 22.5"
with an uncertainty of 2.1 arcmin, (radius, sys+stat, 90% containment).
The partial coding was 32%.

The mask-weighted light curve shows a very broad multi-peaked structure with the 
first emission episode running from T-50 to T+450 sec, with at least four 
superimposed peaks.  Then there is a return to baseline followed by another 
episode from T+550 to T+675 sec. The spacecraft slewed away from the burst 
position at around T+825 sec. T90 (15-350 keV) is 549.9 +- 37.4 sec (estimated 
error including systematics).

The time-averaged spectrum from T+46.54 to T+663.07 sec is best fit by a simple
power-law model.  The power law index of the time-averaged spectrum is
1.73 +- 0.13.  The fluence in the 15-150 keV band is 5.3 +- 0.4 x 10^-6 erg/cm2.
The 1-sec peak photon flux measured from T+230.14 sec in the 15-150 keV band
is 0.9 +- 0.3 ph/cm2/sec.  All the quoted errors are at the 90% confidence
level.

The results of the batgrbproduct analysis are available at
http://gcn.gsfc.nasa.gov/notices_s/619182/BA/

S. Dichiara and C. Guidorzi (U. Ferrara) on behalf of
a large collaboration report:

The Las Cumbres Observatory 2-m Faulkes Telescope North in
Hawaii began observing Swift GRB 141121A (Lien et al. GCN
Circ 17075
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 ) on November 21 at 10:42:54 UT, i.e. ~6.9 hours
after the BAT trigger, with the r' and i' filters.

We clearly detect the optical afterglow (Tanga et al.
GCN 17078
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 ; Perley et al. GCN 17081
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 ) with the following
magnitudes:

Mid time from  Total Exp   Filter    Magnitude
trigger (hr)   (s)
-------------------------------------------------
7.0            120x5       r'        19.62 +- 0.06
7.2            120x5       i'        19.42 +- 0.06
-------------------------------------------------

Magnitudes are calibrated against nearby SDSS stars.
Compared with GROND values we note a possible hint
for rebrightening or, in any case, for a very shallow
decay between the two epochs.

D. A. Perley, C. P. Ott (Caltech), M. Modjaz, and D. Fierroz (NYU) report:

We acquired a spectrum of the afterglow of GRB 141121 (Lien et al., GCN 
17075
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 ; Tanga et al., GCN 17078
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 ) using the Low-Resolution Imaging 
Spectrometer (LRIS) on the Keck I 10-meter telescope.  A single exposure 
of 900 seconds was acquired using the B600 and R400 gratings, covering a 
wavelength range from 3116 to 10264 Angstroms.

In the reduced spectrum, we identify the Mg II (2796,2803) doublet, the 
Fe II (2599) doublet, Fe II (2585), and Fe II (2344) at a common 
redshift of z=1.47 (as well as many absorption lines at bluer 
wavelengths).  No higher-redshift absorption systems are observed and no 
DLA is present down to the blue limit of our spectrum (suggesting an 
upper limit of z<1.56) so we associate this with the redshift of the GRB.

P.A. Evans, M.R. Goad, J.P. Osborne and A.P. Beardmore (U. Leicester) 
report on behalf of the Swift-XRT team.

Using 1073 s of XRT Photon Counting mode data and 5 UVOT
images for GRB 141121A, we find an astrometrically corrected X-ray
position (using the XRT-UVOT alignment and matching UVOT field sources
to the USNO-B1 catalogue): RA, Dec = 122.66947, +22.21741 which is equivalent
to:

RA (J2000): 08h 10m 40.67s
Dec (J2000): +22d 13' 02.7"

with an uncertainty of 1.5 arcsec (radius, 90% confidence).

This position may be improved as more data are received. The latest
position can be viewed at http://www.swift.ac.uk/xrt_positions. Position
enhancement is described by Goad et al. (2007, A&A, 476, 1401) and Evans
et al. (2009, MNRAS, 397, 1177).

This circular was automatically generated, and is an official product of the
Swift-XRT team.

M. Tanga (MPE Garching), D. A. Kann (TLS Tautenburg), and J. Greiner (MPE
Garching) report on behalf of the GROND team:

We observed the field of GRB 141121A (Swift trigger 619182; A. Y. Lien et
al., GCN 17075
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 ) simultaneously in g'r'i'z'JHK with GROND (Greiner et al.
2008, PASP 120, 405) mounted at the 2.2 m MPG telescope at ESO La Silla
Observatory (Chile).

Observations started at 05:52 UT on November 21, 2014, 2.02 hours after
the GRB trigger. They were performed at an average seeing of 1".4 and at
an average airmass of 2.3.

Within the XRT error circle reported by Lien et al., we detect a bright
source in all bands. This source is not detected in the SDSS, therefore we
consider it to be the afterglow of GRB 141121A. The source lies at:

RA (J2000) = 08:10:40.62
Dec. (J2000) = +22:13:01.8

with an error of 0".3 in each coordinate.

Based on total exposures of 7.7 minutes in g'r'i'z' and 8.0 minutes in
JHK, at a midtime of 2.34 hrs after the burst, we measure the following
preliminary magnitudes (AB magnitude system):

g' = 20.0 +/- 0.1 mag,
r' = 19.8 +/- 0.1 mag,
i' = 19.6 +/- 0.1 mag,
z' = 19.4 +/- 0.1 mag,
J = 19.4 +/- 0.2 mag, and
H = 19.2 +/- 0.2 mag.

The magnitudes are calibrated against SDSS and 2MASS field stars and are
not corrected for the Galactic foreground extinction corresponding to a
reddening of E_(B-V)= 0.05 in the direction of the burst (Schlegel et al.
1998).

F. Honda, K. Fukushima, H. Negoro (Nihon U.), N. Kawai (Tokyo Tech), S. Nakahira (JAXA), 
M. Serino (RIKEN), S. Ueno, H. Tomida, M. Kimura, M. Ishikawa, Y. E. Nakagawa (JAXA), 
T. Mihara, M. Sugizaki, M. Morii, J. Sugimoto, T. Takagi, A. Yoshikawa, M. Matsuoka (RIKEN), 
Y. Tachibana, T. Yoshii (Tokyo Tech), 
A. Yoshida, T. Sakamoto, Y. Kawakubo, H. Ohtsuki (AGU), 
H. Tsunemi, D. Uchida (Osaka U.), 
M. Nakajima, T. Onodera, K. Suzuki, T. Namba, M. Fujita (Nihon U.), 
Y. Ueda, M. Shidatsu, T. Kawamuro, T. Hori (Kyoto U.), Y. Tsuboi, A. Kawagoe (Chuo U.), 
M. Yamauchi, Y. Morooka, D. Itoh (Miyazaki U.), K. Yamaoka (Nagoya U.)

We report the MAXI/GSC detection of GRB 141121A (Li et al. GCN 17075
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 ). 
The MAXI/GSC detected the source in the scan transit at 2014-11-21T03:44:47 (UT),
earlier than about 6 min before the BAT trigger.
Assuming that the source flux was constant over the transit,
we obtain the source position at
(R.A., Dec) = (122.928 deg, 22.053 deg) = (08 11 42, +22 03 10) (J2000) 
with a statistical 90% C.L. elliptical error region 
with long and short radii of 0.44 deg and 0.4 deg respectively. 
The roll angle of long axis from the north direction is 174.0 deg counterclockwise. 
There is an additional systematic uncertainty of 0.1 deg (90% containment radius).
This position is consistent with that reported as GRB 141121A.

The X-ray flux averaged over the scan was 57 +- 17 mCrab (4-10keV, 1 sigma error).
There was no significant excess flux in the previous transit at UT 00:39. 
and in the next transit at 05:17 UT with an upper limit of 20 mCrab for each.
A simple power-law fit to the GSC spectrum gives a power-law index of 2.3 +/- 1.0.

These nature implies that the source is a long-GRB, or a new X-ray transient.
The followup observations are strongly encouraged to reveal the nature of the source.

J. C. Tello (IAA-CSIC), J. Gorosabel (IAA-CSIC, UPV-EHU) and A, J.
Castro-Tirado (IAA-CSIC, ISA-UMA), on behalf of a larger collaboration,
report:

Following the detection of GRB 141121A by Swift (Lien et al., GCNC 17075),
the 0.6m TELMA robotic telescope at the BOOTES-2 astronomical station
Malaga (Spain), responded to the GRB location in poor weather conditions
(through clouds) starting at 04:01:57 UT (i.e. 11 min postburst). The
co-add of 10 images (i-band) starting at 04:06:03 UT and ending in 04:17:17
UT (i.e. 16-27min post burst) (60s integrations) provides an upper limit of
i > 16.5 for any object within the Swift/XRT error box. Further
observations are planned.

A. Y. Lien (GSFC/UMBC), J. A. Kennea (PSU),
H. A. Krimm (CRESST/GSFC/USRA), C. B. Markwardt (NASA/GSFC),
F. E. Marshall (NASA/GSFC), C. Pagani (U Leicester) and
D. M. Palmer (LANL) report on behalf of the Swift Team:

At 03:50:43 UT, the Swift Burst Alert Telescope (BAT) triggered and
located GRB 141121A (trigger=619182).  Swift slewed immediately to the burst. 
The BAT on-board calculated location is 
RA, Dec 122.668, +22.225 which is 
   RA(J2000) = 08h 10m 40s
   Dec(J2000) = +22d 13' 31"
with an uncertainty of 3 arcmin (radius, 90% containment, including 
systematic uncertainty). The BAT light curve shows no significant structure,
as usual for an image trigger. 

The XRT began observing the field at 03:56:45.6 UT, 362.4 seconds after
the BAT trigger. XRT found a bright, uncatalogued X-ray source located
at RA, Dec 122.6700, 22.2177 which is equivalent to:
   RA(J2000)  = +08h 10m 40.80s
   Dec(J2000) = +22d 13' 03.7"
with an uncertainty of 4.8 arcseconds (radius, 90% containment). This
location is 27 arcseconds from the BAT onboard position, within the BAT
error circle. No event data are yet available to determine the column
density using X-ray spectroscopy. 

The initial flux in the 2.5 s image was 6.07e-09 erg cm^-2 s^-1 (0.2-10
keV). 

UVOT took a finding chart exposure of 150 seconds with the White filter
starting 370 seconds after the BAT trigger. No credible afterglow candidate has
been found in the initial data products. The 2.7'x2.7' sub-image covers 100% of
the XRT error circle. The typical 3-sigma upper limit has been about 19.6 mag. 
The 8'x8' region for the list of sources generated on-board covers 100% of the
XRT error circle. The list of sources is typically complete to about 18 mag. No
correction has been made for the expected extinction corresponding to E(B-V) of
0.05. 

Burst Advocate for this burst is A. Y. Lien (amy.y.lien AT nasa.gov). 
Please contact the BA by email if you require additional information
regarding Swift followup of this burst. In extremely urgent cases, after
trying the Burst Advocate, you can contact the Swift PI by phone (see
Swift TOO web site for information: http://www.swift.psu.edu/too.html.)