ZTF21aaeyldq
GCN Circular 29305
Subject
ZTF Discovery of ZTF21aaeyldq (AT2021any): a Hostless, Young, and Rapidly Fading Transient
Date
2021-01-16T21:45:39Z (4 years ago)
From
Daniel Perley at Liverpool JMU <d.a.perley@ljmu.ac.uk>
A. Y. Q. Ho (UC Berkeley), D. A. Perley (LJMU), Y. Yao (Caltech), and I.
Andreoni (Caltech) report on behalf of the Zwicky Transient Facility
collaboration:
The Zwicky Transient Facility (ZTF; ATel #11266) reports the discovery
last night of ZTF21aaeyldq (AT2021any), a rapidly fading optical
transient located at:
08:15:15.34 -05:52:01.2 (J2000)
123.813909 -5.867007 (J2000)
and detected as part of the high-cadence partnership survey by a filter
designed to find fast transients (Ho et al. 2020, ApJ, 905, 2).
The source was discovered on UT 2021-01-16T06:59:45.6 at r=17.9 mag,
only 22 minutes after the last non-detection (limiting mag r~20.28). Two
additional r-band observations over the next 3.3 hours revealed rapid
fading by 2 magnitudes. No counterpart is visible in deep Legacy Survey
pre-imaging (>24 mag; Dey et al. 2019, ApJ, 157, 5).
The color of the transient is moderately red (g-r~0.3 mag). While the
source is close to the Galactic plane (+16 deg), extinction along the
line of sight is low (E(g-r)~0.07 mag; Schlafly et al. 2011, ApJ, 737, 2).
We urge additional multi-band photometry to establish the rate of fading
and color of this transient.
ZTF is a project led by PI S. R. Kulkarni at Caltech (see ATEL #11266),
and includes IPAC; WIS, Israel; OKC, Sweden; JSI/UMd, USA; UW,USA; DESY,
Germany; NRC, Taiwan; UW Milwaukee, USA and LANL USA. ZTF acknowledges
the generous support of the NSF under AST MSIP Grant No 1440341. Alert
distribution service provided by DIRAC@UW. Alert filtering is done with
Kowalski (Duev et al. 2019), the GROWTH marshal system (supported by NSF
PIRE grant 1545949), and by Fritz (van der Walt et al. 2019, Duev et al.
2019, Kasliwal et al. 2019).
DisclaimerNone
GCN Circular 29307
Subject
ZTF21aaeyldq: GTC Redshift and GRB afterglow nature confirmation
Date
2021-01-17T02:18:08Z (4 years ago)
From
Alexander Kann at IAA-CSIC <kann@iaa.es>
A. de Ugarte Postigo (HETH/IAA-CSIC, DARK/NBI), D. A. Kann
(HETH/IAA-CSIC), D. A. Perley (LJMU), C. C. Thoene (HETH), M. Blazek, J.
F. Agui Fernandez (both HETH/IAA-CSIC), and R. Scarpa (GTC) report:
We observed the fast-fading hostless transient ZTF21aaeyldq (Ho et al.,
GCN #29305) with OSIRIS at the 10.4m Gran Telescopio Canarias (Roque de
los Muchachos Observatory, La Palma, Canary Islands, Spain), starting at
2021-01-16 23:35:54.359 UT (16.60 hours after the first optical
detection). The source is clearly detected. We obtained a 60 s r'-band
finder image and 4 x 900 s spectroscopy with the R1000B grism.
For the image starting at 2021-01-16 23:27:09.671 (0.68604 days after
the first optical detection), we measure r' = 21.64 +/- 0.03 (AB mag)
vs. a nearby SDSS star.
The spectrum shows a clear continuum over the full spectral range with
many strong absorption lines. We identify these lines as Ly-alpha, SII,
OI, SiII, SiIV, CII, CIV, FeII, AlII, and AlIII, at a mean redshift of z
= 2.514. We identify this as the redshift of the transient. Coupled with
the rapid decay, the moderately red color (Ho et al., GCN #29305) and
the lack of any broad spectral features, we also identify this transient
as a GRB afterglow for which no high-energy trigger has been reported
yet.
GCN Circular 29308
Subject
ZTF21aaeyldq: observations with the 3.6m Devasthal Optical Telescope
Date
2021-01-17T10:13:28Z (4 years ago)
From
Amit Kumar at ARIES, India <amitkundu515@gmail.com>
Amit Kumar (ARIES), Shashi B. Pandey (ARIES), Rahul Gupta (ARIES), Dimple
(ARIES), Ankur Ghosh (ARIES), Amar Aryan (ARIES), Brajesh Kumar (ARIES),
and Kuntal Misra (ARIES) report:
We observed the ZTF discovered fast-fading hostless transient ZTF21aaeyldq
(Ho et al., GCN 29305) using the 4Kx4K CCD Imager (Pandey et al. 2018,
2018BSRSL..87...42P) mounted at the axial port of the 3.6m Devasthal
Optical Telescope of ARIES Nainital. The transient has been identified as a
GRB afterglow at z = 2.514 by Postigo et al. GCN 29307.
The observations were started on 2021-01-16 at 22:15:12.980 UT (~15.258
hours after the detection). We observed two images with an exposure time of
300 seconds each in Bessel R and I bands. At the position reported by Ho et
al., GCN 29305, we detect an uncatalogued source in both R and I bands.
The observed R-band magnitude is as follows:
Date UT start T-T0 (hours) Exp. Filter OT
(mag) Err
------------------------------------------------------------------------------------------------
2021-01-16 22:15:12.980 15.258 1*300 R 21.04
0.06
The quoted magnitude is calibrated with the nearby USNO-B1 stars and not
corrected for the Galactic and Host extinction in the direction of the
burst.
3.6m Devasthal Optical Telescope (DOT) is a recently commissioned facility
in the Northern Himalayan region of India (long:79 41 04E, lat:29 21 40N,
alt:2540m) owned and operated by the Aryabhatta Research Institute of
Observational Sciences (ARIES), Nainital (https://www.aries.res.in).
Authors of this GCN circular thankfully acknowledge consistent support from
the technical staff members to run and maintain the 3.6m DOT.
This circular may be cited.
GCN Circular 29309
Subject
ZTF21aaeyldq: Lowell Discovery Telescope observations
Date
2021-01-17T12:24:40Z (4 years ago)
From
Tomas Ahumada at U. of Maryland <tahumada@astro.umd.edu>
Tomas Ahumada (UMD), John Della Costa(SDSU), Brad Cenko (NASA GSFC), and
Robert Quimby (SDSU):
We imaged the position of ZTF21aaeyldq (Ho et al., GCN 29305), a ZTF
discovered fast-fading transient with the Large Monolithic Imager (LMI)
mounted at the 4.3m Lowell Discovery Telescope, starting at 2021-01-17
07:59:33 UT.
We acquired three 180 sec exposures in the i-band and reduced them
following standard procedures. Our image shows a clear source at the
position reported by Ho et al. We calibrated the flux against SDSS sources
in the field and derived a magnitude of 22.1 +- 0.2 mag. The magnitude we
report is not extinction corrected.
We thank the LDT staff, particularly Stephen Levine and Amanda Bosh for
their assistance.
--
Tomas Ahumada (he/him)
Ph.D. Student
Department of Astronomy
University of Maryland, College Park
B.Sc. Astronomy, Pontificia Universidad Cat��lica de Chile
GCN Circular 29310
Subject
ZTF21aaeyldq: NOT optical observations
Date
2021-01-17T13:37:47Z (4 years ago)
From
Dong Xu at NAOC/CAS <dxu@nao.cas.cn>
Z.P. Zhu (NAOC, HUST), J. P. U. Fynbo (DAWN/NBI), D. A. Perley (LJMU),
S.Y. Fu, D. Xu (NAOC) report on behalf of a larger collaboration:
We observed the field of ZTF21aaeyldq/AT2021any (Ho et al., GCN 29305)
using the 2.56-m Nordic Optical Telescope (NOT) equipped with the ALFOSC
camera. We did photometry in the Sloan g-/r-/i- filters, and the source,
presumably an orphan GRB afterglow (e.g., A. de Ugarte Postigo et al.,
GCN 29307), is clearly detected in each of our images.
Preliminary photometry of the source is as follows:
T_start(UT) Tmid-T0(day) Exptime(s) Filter Mag MagErr
2021-01-17T02:18:24 0.812 5x300 sdss-g 22.28 0.05
2021-01-17T02:45:53 0.831 5x300 sdss-r 21.86 0.04
2021-01-17T03:13:26 0.850 5x300 sdss-i 21.65 0.03
T0 is 06:59:45.6 UT on 2021-01-16, first ZTF detection of ZTF21aaeyldq,
and calibrated with nearby Pan-STARRS stars.
GCN Circular 29312
Subject
ZTF21aaeyldq: 2.2m CAHA BVRI optical observations
Date
2021-01-17T17:54:36Z (4 years ago)
From
Youdong HU at IAA-CSIC <huyoudong072@hotmail.com>
Y.-D. Hu, E. Fernandez-Garcia, A.J. Castro-Tirado, M.D. Caballero-Garcia, M.A. Castro-Tirado (IAA-CSIC), R.P. Hedrosa, I. Hermelo, I. Vico (CAHA) on behalf of a larger collaboration, report:
Following the detection of ZTF21aaeyldq (AT2021any) by the Zwicky Transient Facility (ZTF; Ho et al., GCNC 29305), we triggered the 2.2m CAHA telescope in Almeria (Spain) equipped with CAFOS. BVRI images were gathered starting on Jan 17, 00:02 UT (17.04 hours after first optical detection). Second epoch BVRI images were taken starting at 04:08 UT. The optical counterpart is clearly detected at the ZTF position (Ho et al., GCNC 29305, de Ugarte Postigo et al., GCN 29307, Kumar et al., GCNC 29308, Ahumada et al., GCNC 29309 and Zhu et al., GCNC 29310). We measure a first epoch R-band magnitude (non-extinction corrected) of R = 21.27+-0.13 mag at 00:15 UT, calibrated with the nearby stars present in the USNO-B1.0 catalog.
We thank the staff at CAHA observatory for their excellent support.
GCN Circular 29313
Subject
ZTF21aaeyldq (AT2021any): Detection of X-ray Emission with Swift/XRT
Date
2021-01-17T18:10:08Z (4 years ago)
From
Anna Ho at UC Berkeley <annayqho@berkeley.edu>
A. Y. Q. Ho (UC Berkeley) reports on behalf of the Zwicky Transient
Facility collaboration:
We obtained a target-of-opportunity observation of ZTF21aaeyldq/AT2021any
(Ho et al., GCN 29305) with the Neil Gehrels Swift Observatory starting at
UT 2021-01-17 (02h29), which is 0.81d after the first optical detection. We
detected X-ray emission at the transient position with a count rate 0.0067
ct/s. Assuming a neutral hydrogen column density n_H = 8.12E20/cm2
(Willingale et al. 2013) and a power-law spectrum with photon index 2, the
unabsorbed flux is 2.9E-13 erg/cm^2/s. At z=2.514 (A. de Ugarte Postigo et
al., GCN 29307) the luminosity is 1.5E46 erg/s, typical of GRB afterglows
at this epoch.
Further monitoring is planned, and we thank the Swift team for rapidly
scheduling and executing our observations.
--
Anna Ho
GCN Circular 29316
Subject
ZTF21aaeyldq: KPED observations
Date
2021-01-18T04:02:03Z (4 years ago)
From
Tomas Ahumada at U. of Maryland <tahumada@astro.umd.edu>
Michael Coughlin (UMN) and Tomas Ahumada (UMD):
We imaged the position of the fast fading ZTF source ZTF21aaeyldq (Ho et
al., GCN 29305), with the the Kitt Peak Electron Multiplying CCD (EMCCD)
demonstrator (KPED) mounted at the 2.1m Kitt Peak Telescope, starting at
2021-01-17 06:59:49 UT.
We acquired thirty 10 sec exposures in the g- and r-bands, stacked them,
and reduced them following standard procedures. After calibrating the flux
against PS1 sources in the field, we do not see the source reported by Ho
et al. down to a limit of g > 20.1 mag and r > 19.9.
--
Tomas Ahumada (he/him)
Ph.D. Student
Department of Astronomy
University of Maryland, College Park
B.Sc. Astronomy, Pontificia Universidad Cat��lica de Chile
GCN Circular 29321
Subject
ZTF21aaeyldq CAHA 2.2m detection and power-law decay
Date
2021-01-18T18:06:36Z (4 years ago)
From
Alexander Kann at IAA-CSIC <kann@iaa.es>
D. A. Kann (HETH/IAA-CSIC), A. de Ugarte Postigo (HETH/IAA-CSIC,
DARK/NBI), C. C. Thoene (HETH), M. Blazek, J. F. Agui Fernandez (both
HETH/IAA-CSIC), and J. I. Vico Linares (CAHA) report:
We observed the position of the GRB-less afterglow ZTF21aaeyldq (Ho et
al., GCN #29305; de Ugarte Postigo et al., GCN #29307) with CAFOS at the
2.2m telescope at Calar Alto, Almeria, Spain, in the Rc band. We
obtained 10 x 360 s exposures, centered at 1.74430 days after the
transient discovery, under fair conditions but mediocre seeing.
The afterglow (Kumar et al., GCNs #29308; Ahumada et al., GCN #29309;
Zhu et al., GCN #29310; Hu et al., GCN #29312) is clearly detected. We
measure Rc = 22.89 +/- 0.12 mag. (AB mag, vs. the same SDSS star as in
our GTC observation, GCN #29307 converted to Rc following the Lupton
transformations, then transformed back to AB mag).
We take data from Ho et al., GCN #29305; de Ugarte Postigo et al., GCN
#29307; and Zhu et al., GCN #29310 (all in r'), and here assume a
trigger time 22 minutes before the discovery (at the last
non-detection). We find this data is fit well with a single power-law, a
straight decay slope alpha ~ 0.91 +/- 0.02. The magnitude we report now
lies slightly (0.3 mag) below the extrapolation of the afterglow decay.
Further observations are needed to determine whether this represents a
jet break.
GCN Circular 29327
Subject
ZTF21aaeyldq: LBT near-infrared observations
Date
2021-01-19T13:46:36Z (4 years ago)
From
Andrea Rossi at INAF <andrea.rossi@inaf.it>
A. Rossi, E. Palazzi (INAF-OAS) reports on behalf of the GRAWITA
collaboration:
We observed the field of ZTF21aaeyldq (Ho et al., GCN 29305)
simultaneously the J and H bands with the LUCI near-infrared imager and
spectrograph mounted on the Large Binocular Telescope (LBT, Mt Graham,
AZ, USA). Observations were obtained on 2021-01-17 at the UT 06:35:00
(midtime), i.e. ~1 day after the first ZTF detection, for a total of 15
min of on-source exposure time in each band under not very good sky
conditions (seeing=1.4").
We detect the transient (de Ugarte-Postigo GCN#29307, Kumar et al., GCNs
#29308; Ahumada et al., GCN #29309; Zhu et al., GCN #29310; Hu et al.,
GCN #29312, Kann et al., GCN #29321) in both J and H-band images, and we
measure the following AB magnitudes:
J=21.62+-0.20
H=21.36+-0.24
calibrated against 2MASS field stars.
We acknowledge the excellent support from the LBTO and LBT-INAF staff,
particularly A. Cardwell and D. Paris, in obtaining these observations.
GCN Circular 29330
Subject
ZTF21aaeyldq: GROND observations
Date
2021-01-19T16:38:42Z (4 years ago)
Edited On
2024-11-07T19:59:14Z (7 months ago)
From
Ana Nicuesa at TLS Tautenburg <ana@tls-tautenburg.de>
Edited By
Vidushi Sharma at NASA GSFC/UMBC <vidushi.sharma@nasa.gov> on behalf of Leo P. Singer at NASA/GSFC <leo.p.singer@nasa.gov>
A. Nicuesa Guelbenzu (TLS Tautenburg), A. Rau (MPE Garching),
and S. Klose (TLS Tautenburg) report:
We observed the field of ZTF21aaeyldq/AT2021any (Ho et al., GCN 29305)
with GROND mounted at the 2.2m MPG telescope at the ESO La Silla
Observatory (Chile).
Observations were performed during three epochs. The data were
calibrated against SDSS stars in the field.
In the g' band we measure the following AB magnitudes:
dt/days mag
1.82415 23.39 +/- 0.11
2.02104 23.47 +/- 0.06
2.87115 23.84 +/- 0.09.
Following Kann et al. (GCN 29321), here we assumed a GRB trigger time
22 minutes before the discovery image (Ho et al., GCN 29305), i.e., at
JD 2459230.77622.
Based on these three epochs, we measure a decay slope of 0.94 +/-
0.05, in agreement with Kann et al. (GCN 29321). There is no evidence
for an underlying host galaxy.
The transient was not detected in the NIR bands.
We thank Sam Kim (PUC) for performing the observations and all people,
in particular P. Eigenthaler, R. Lechaume, A. Hempel, M. Hempel,
T. Schweyer, A. González, involved in bringing GROND back online after
its shutdown due to the Covid 19 pandemia in early 2020.
GCN Circular 29344
Subject
ZTF21aaeyldq: GROND and CAHA jet break confirmation
Date
2021-01-22T17:37:47Z (4 years ago)
From
Alexander Kann at IAA-CSIC <kann@iaa.es>
D. A. Kann (HETH/IAA-CSIC), A. Nicuesa Guelbenzu (TLS Tautenburg), A. de
Ugarte Postigo (HETH/IAA-CSIC, DARK/NBI), C. C. Thoene (HETH), M.
Blazek, J. F. Agui Fernandez (both HETH/IAA-CSIC), A. Rau (MPE
Garching), S. Klose (TLS Tautenburg), and J. I. Vico Linares (CAHA)
report:
We obtained further observations of the GRB-less afterglow
ZTF21aaeyldq/AT2021any (Ho et al., GCN #29305; de Ugarte Postigo et al.,
GCN #29307) with CAFOS at the 2.2m telescope at Calar Alto, Almeria,
Spain, in the Rc band at 2.8 days post-discovery, and with GROND mounted
at the 2.2m MPG telescope at the ESO La Silla Observatory (Chile) at 3.9
days after the trigger. The afterglow is clearly detected in each
stacked image.
Further to the observations and analysis described in Kann et al. (GCN
#29321, with data from Ho et al., GCN #29305; de Ugarte Postigo et al.,
GCN #29307; and Zhu et al., GCN #29310) and Nicuesa Guelbenzu et al.
(GCN #29330), we fit the combined data set, also leaving the host-galaxy
magnitudes free, as the GROND data shows a characteristic flattening.
We find that a single power-law fit does not describe the data well
(chi^2/d.o.f. = 3.7), overestimating the CAHA data and not fitting the
curvature seen in the GROND data. However, a broken power-law fit yields
a significantly improved result (chi^2/d.o.f. = 0.12) with fit
parameters alpha_1 = 0.95 +/- 0.03, alpha_2 = 2.30 +/- 0.76 and t_b =
0.82 +/- 0.08 days. This fit may be improved or modified with further
data/observations, but the break signature is clear. It therefore
confirms the initial suggestion of Kann et al. (GCN #29321). This is a
typical feature in GRB afterglows and a further indicator that the
nature of this transient is a GRB afterglow.
Ho et al., GCN #29305, report the first detection at
2021-01-16T06:59:45.6, and a deep non-detection 22 minutes earlier.
Antia et al., GCN #29340, and Nadella et al., GCN #29342, report the
detection of a bright GRB 210116A with AstroSat LAXPC and CZTI at ~05:53
UR on the same day, about 44 minutes before the ZTF non-detection.
Judging from typical GRB afterglow behavior, this makes it unlikely that
the two events are associated with each other but does not rule it out.
An IPN localization of GRB 210116A could confirm or rule out the
association.
GCN Circular 29364
Subject
ZTF21aaeyldq: Observations with the 3.6m DOT
Date
2021-01-27T11:42:29Z (4 years ago)
From
Dimple Panchal at ARIES, India <dimplepanchal96@gmail.com>
Ankur Ghosh (ARIES), Dimple (ARIES), Amit Kumar (ARIES), Rahul Gupta
(ARIES), Kuntal Misra (ARIES) and Shashi B. Pandey (ARIES) report:
We obtained further observations of the ZTF21aaeyldq/AT2021any (Ho et
al. GCN #29305, de Ugarte Postigo et al. GCN #29307, Kumar et al. #GCN
29308) with 4K x 4K CCD Imager mounted on 3.6m Devasthal Optical
Telescope (DOT) at Devasthal observatory of ARIES, India, in r-band
at 9.41 days after discovery. We acquired a consecutive set of 12
images with an exposure time of 300 seconds each. We do not detect any
optical counterpart upto a magnitude limit of 23.98 in the stacked
image. The limit do agree with the decay index reported by Kann et al.
GCN #29344.