GRB 070419A

B. E. Schaefer (Louisiana State), F. Yuan (U Mich), S.A. Yost (U Mich), 
report on behalf of the ROTSE collaboration:

ROTSE-IIIb, located at McDonald Observatory, Texas, responded to GRB
070419A (Swift trigger 276205), producing images beginning 6.3 s after the
GCN notice time. An automated response took the first image at 10:00:47.3
UT, 81.2 s after the burst, under excellent conditions. We took 10 5-sec,
10 20-sec and 20 60-sec eposures, with further exposures still continuing.  
These unfiltered images are calibrated relative to USNO A2.0 (R).

There is a bright star in the BAT error circle, but this is well removed
from the XRT position. Comparison to the DSS (second epoch) reveals no new
sources within the 3-sigma XRT error circle, for both single images and
coadding into sets of 10;  the field is not crowded. Individual images
have limiting magnitudes ranging from 15.2-17.6; we set the following
specific limits.

start UT       end UT      t_exp(s)   mlim   t_start-tGRB(s)  Coadd?
--------------------------------------------------------------------
10:00:47.3   10:00:52.3         5     16.0           81.2       N
10:00:47.3   10:01:54.4        67     17.8           81.2       Y

S. Nishiura, H. Tomita, Y. Urata and K.Y. Huang
report on behalf of EAFON team

"We have imaged the GRB 070419A field (Stamatikos et al. #6302) with
the Kiso 1.05m Schmidt telescope. The optical afterglow reported by
Chornock et al (#6304) and Cenko et al. (#6306) is visible in our B
and R band images. We also confirmed the decaying during our
observation. The afterglow brightness at 51 min after the burst is
R~20.1 mag."

Further observations and analysis are in progress.

E. Rol, N. Tanvir (U. of Leicester), T. Kerr (JAC), report for a
larger collaboration:

We  observed the  field of  GRB070419A with  UKIRT-WFCAM,  starting 39
minutes after the  GRB trigger (Stamatikos et al.,  GCN 6302
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 ). We find
the following magnitudes for the infrared counterpart of GRB070419A:

     T                 filter   magn    error(magn)
(hours post  trigger)
--------------------------------------------------
   0.654                 J     18.27      0.08
   0.734                 H     17.83      0.13
   0.814                 J     18.56      0.09
   0.896                 K     17.26      0.18
   1.665                 K     18.30      0.18

The magnitudes are calibrated with respect to the 2MASS catalogue.

R. Hara, E.Sonoda, S.Maeno, H. Tanaka, N. Ohmori, M.Yamauchi
(University of Miyazaki)


  We have observed the field covering the error circle of
GRB070419A (GCN 6302
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 , M. Stamatikos et al.) with
the unfiltered CCD camera on the 30-cm telescope at
University of Miyazaki.
The observation was started 10:24:34 UT, ~25 min
after the Swift trigger time.

We have compared our data of 30 sec exposures
with the USNO-A2.0 catalog,
the upper limits are as follows:
--------------------------------------------------------------
Start(UT)	End(UT)	    Num. of frames	Limit (mag.)	
--------------------------------------------------------------
10:42:40	10:43:10	1		~16.2
10:42:40	10:53:36	10		~17.7
---------------------------------------------------------------

K.J. Fu, Y.H. Lee, K.Y. Huang and Y. Urata report on behalf of EAFON

"We observed the optical afterglow of GRB070419A (Stamatikos et al
#6302, Chornock et al #6304, Cenko et al #6306, Nishiura et al. #6308
and Rol et al #6309) with the Lulin One-meter Telescope started from
11:49 UT. The afterglow at 2.0 hours after the burst is visible in our
R-band combined image with R = 21.8+/-0.3 (compared with USBO-B1.0 catalogue)."

Further observations and analysis are in progress.

M. Uemura, A. Arai, and T. Uehara (Hiroshima Univ.), 
report on behalf of the KANATA GRB team:

  We took optical and IR images of the field of GRB070419A (GCN 6302
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 ) at 
11:01-11:12 UT 19 Apr. using TRISPEC attached to the KANATA 
1.5-m telescope at Higashi-Hiroshima Observatory, Japan.  
We obtained 10 sets of V, J, and Ks-band images with a 63, 60, 
and 48-s exposure times under thin clouds.  

No new object was significantly detected in the combined image 
(19.46322 Apr. 2007 UT).  Limit magnitudes are 20.0, 17.2, and 15.0 mag
in V-, J-, and Ks-band, respectively, using the USNO A2.0 and 
2MASS catalog.

R.J. Smith, C.G. Mundell, S.N. Fraser, I.A. Steele, C.J. Mottram, A. 
Melandri, D.F. Bersier, M.F. Bode (Liverpool JMU), C. Guidorzi 
(Uni-Bicocca/INAF-OAB), A. Gomboc (Ljubljana), P. O'Brien, E. Rol, N. 
Bannister (U. Leicester) report on behalf of the RoboNet GRB 
collaboration

The 2-m Faulkes North Telescope (Hawaii) reacted to the Swift burst 
GRB070419A
(Stamatikos et al. GCN 6302
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 ). Observations were delayed by scheduled 
engineering
work and only started about 37 min after the trigger time. BRi 
observations continued
until 104min after the trigger.

We detect the optical transient reported by Chornock et al (GCN 6304
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 ) 
in R and i' band filters
and measure a power law decay index of ~ 1.5 throughout the hour of 
observation.

  UTC	minutes_since_trigger	Mag
10:49:46.5	50.36	g' > 19.8 (limit only)
10:51:20.8	51.91	r' = 20.37
10:53:07.9	53.70	i' = 20.22
Magnitudes are based on comparison with SDSS magnitudes of the adjacent 
star
SDSS J121057.55+395539.9.

The target has set and further observations are not currently ongoing 
with this telescope.

R. Iizuka, K. Matsuda, H. Naito and F. Tsumuraya
report on behalf of NHAO.

We observed the field of GRB 070419A (GCN 6302
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 ) with MINT
on the 2.0-m NAYUTA telescope at Nishi-Harima Astronomical
Observatory, Japan. We took images for a total of 100 sec in
R-band filter on 2007 Apr 19 10:55 UT (56 minutes after the burst).
The afterglow was detected with 20.1 mag relative to USNO-B stars.

A. C. Updike, D. H. Hartmann (Clemson University) and K. Rumstay 
(Valdosta University) report on behalf of the Clemson GRB Follow-Up Team:

We imaged the field of GRB 070419A (GCN 6302
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 , Stamatikos et al.) 
beginning 54 minutes after the trigger (276205) with the SARA 0.9m at 
Kitt Peak under good weather conditions.  In 16 minutes of stacked 
images, we see a faint object near our detection limit at the location 
of the afterglow (GCN 6304
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 , Charnack et al.).  We estimate the R-band 
magnitude to be 20 +/- 0.5 based on calibration to 5 USNO B1.0 stars.

The Clemson University GRB Response Site may be found at:
 http://people.clemson.edu/~kgarime/burst/index.php

The SARA Homepage can be found at:
 http://saraobservatory.org

This message may be cited.

S. B. Pandey, Rupak Roy and Saurabh Sharma (ARIES Nainital), on behalf of larger
Indian GRB collaboration

Optical afterglow candidate (GCN 6304
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 ) of GRB 070419A, localized by SWIFT
(GCN 6302
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 , trigger 276205), was monitored from ARIES Nainital, India
using 1-m telescope in R_c and I_c filters around 4 hours after the burst.
The total exposure given in R_c filter was 300sec*6 in good sky conditions.
Photometry of the stacked R_c frame poses an upper limit of ~22 mag (around 4.3
hours after the burst) at the location of OT in comparison to nearby
USNO-B1.0 star (GCN 6306
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 ).
This message may be cited.

J. Wren, W.T. Vestrand, P.R. Wozniak, R. White, J. Pergande
of Los Alamos National Laboratory report:
 
Our Raptor telescopes responded to Swift trigger 276205
(Stamatikos et al., GCN 6302
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 ) at 10:00:49.8 UT, 83.7 s after
the trigger and 7.8 s after receiving the GCN packet.  We detect
optical emission from the counterpart reported by the KAIT team
(Chornock et al., GCN 6304
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 ).  Our observations show that the
counterpart brightened from below magnitude 18.8 to 18.44 (+- .15)
at a mid-exposure time of 10:09:27.9 UT (60s duration).  The
counterpart then began a slow decline but remained detectable in
our images until we interrupted our observing sequence at
10:47:17 UT for Swift trigger 276212.  Our unfiltered images were
calibrated using the R-band magnitudes from the USNO B1.0 catalog.
 
This information is also being transmitted via VOEvent on the
VOEventNet.

M. Stamatikos (GSFC/ORAU), L. Barbier (GSFC), S. D. Barthelmy (GSFC), J.
Cummings (GSFC/UMBC), E. Fenimore (LANL), N. Gehrels (GSFC), H. Krimm
(GSFC/USRA), C. Markwardt (GSFC/UMD), D. Palmer (LANL), A. Parsons (GSFC),
T. Sakamoto (GSFC/ORAU), G. Sato (GSFC/ISAS), J. Tueller (GSFC) on behalf of
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 070419A
(trigger #276205)  (Stamatikos, et al., GCN Circ. 6302
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 ).  The BAT
ground-calculated position
is RA, Dec = 182.755, 39.903 deg which is 
   RA(J2000) = 12h 11m 1.1s 
   Dec(J2000) = 39d 54' 11.0" 
with an uncertainty of 2.3 arcmin, (radius, sys+stat, 90% containment). The
coding fraction was 1.

This position is ~1.5 arcmin from the position of the optical afterglow
candidate reported by Chornock et al. (GCN Circ 6304
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 ), which was further
confirmed by Cenko et al. (GCN Circ 6306
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 ). 
 
The mask-weighted light curve has a nearly symmetric, smooth profile,
although a tail of emission extends to about T+160 sec. The T90 (15-350 keV)
is ~116 +- 6 sec (estimated error including systematics).
 
The time-averaged spectrum, from T-35 to T+93, is best fit by a simple
power-law model. The power law index of the time-averaged spectrum is 2.35
+- 0.25. The fluence in the 15-150 keV band is 5.6 +- 0.8 x 10^-7 erg/cm^2.
The 1-sec peak photon flux measured from T-1.12 sec in the 15-150 keV band
is 2.8 x 10^-2 ph/cm^2/sec.  All the quoted errors are at the 90% confidence
level.

Under a Lambda Cold Dark Matter cosmological model, with Ho ~ 65 km/Mpc/s,
Omega_M ~ 0.30, and Omega_Lambda ~ 0.70, the preliminary Keck absorption
redshift of 0.97, reported by Cenko et al. (GCN Circ 6322
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 ), when coupled to
the BAT fluence reported above, results in a preliminary isotropic energy
emission estimate of ~ 1.60 x 10^+51 ergs in the 15-150 keV observed (30-296
keV GRB rest frame) band pass.

G. G. Williams (MMTO) and P. A. Milne (Steward Observatory), on behalf of 
the Super-LOTIS Collaboration, report:

The robotic 0.6-m Super-LOTIS telescope began observing the error box of 
GRB 070419A (Swift Trigger 276205, Stamatikos et al. GCN 6302
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 ) at 
10:01:08.1 UT, 102 seconds after the trigger.  Our initial observations 
include 5 x 10s exposures, 5 x 20s exposures, and 30 x 60s exposures, all 
in the R-band.

We detect the afterglow reported by Chornock et al. (GCN 6304
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 ) in our 
third (and subsequent) 60 second exposure which began at 10:07:01.8 UT, 
456 seconds after the trigger.  We do not detect the afterglow in early 
single exposures or early summed exposures. This is evidently related to 
the brightening reported by Cenko et al. & Wren et al. (GCN 6306
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  & 6324).

Using the USNO-B star at RA=12:10:57.57, Dec=+39:55:40.2 with R=15.22 
(Cenko et al. GCN 6306
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 ), we calculate the following R-band magnitudes and 
5-sigma upper limits:

t_start (UT)	exp t_tot (s)	Nsum	t_start-t_0 (s)	R Mag
----------------------------------------------------------------
10:01:08.1	10		1	102		R > 17.71
10:01:08.1	50		5	102		R > 18.58
10:02:33.1	20		1	187		R > 18.24
10:02:33.1	100		5	187		R > 19.19
10:04:47.9	60		1	322		R > 18.60
10:07:01.8	60		1	456		R = 18.49 +/- 0.22

Additional observations followed our initial set and analysis are ongoing.

M. Yoshida, K. Yanagisawa, Y. Shimizu, S. Nagayama (OAO, NAOJ) and
N. Kawai (Tokyo Tech) report on behalf of the MITSuME collaboration:

We performed optical imaging observation (g', Rc, and Ic) of the
field of GRB 070419A (Stamatikos et al. GCN 6302
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 ) with 50cm MITSuME
telescope at Okayama Astrophysical Observatory from UT 10:53 to
UT 13:06 on Apr.19 2007.

We coadded 106 CCD frames for each band. Exposure time of each frame
is 1 minute. We made flux calibration using a USNO B1.0 star close
to the XRT position (12:10:57.57, +39:55:40.2, B=16.14, R=15.22,
I=14.37; see Williams et al. GCN 6328
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 , Cenko et al. GCN 6306
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 ). We
detected a faint source in g' band at the position of the optical
transient reported by Chornock et al. (GCN 6304
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 ). The g' band magnitude
and three sigma limiting magnitudes for Rc and Ic bands of this source
are listed below.

---------------------------------------------------------------
band   mid-UT          exp.time       brightness
g'     Apr. 19 12:00   106 x 1 min.   20.9 +- 0.2 mag
Rc     Apr. 19 12:00   106 x 1 min.   > 21.5 mag (upper limit)
Ic     Apr. 19 12:00   106 x 1 min.   > 19.4 mag (upper limit)
---------------------------------------------------------------

H. Swan (U Mich), I. Smith (Rice), C. Akerlof (U Mich), E. Rykoff (U
Mich), and M. Skinner (Boeing) report on behalf of the MARGE collaboration:

The AEOS Burst Camera (ABC) on the AEOS telescope, located at the Maui 
Space Surveillance System on Haleakala, observed the fading counterpart 
to GRB070419A (Swift trigger 276205 (GCN 6302
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 )). The images are 
unfiltered 10s exposures which started at 10:57:41 UT (~58 minutes after 
the trigger) and ended at 11:53:52 UT.

After coadding our images in sets of 10, we detect the OT first 
identified by Chornock et al (GCN 6304
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 ). A preliminary analysis gives a 
magnitude of approximately 20.5+/-0.2 at a mid time of 10:59:11 UT. 
Using the SDSS data provided by Cool et al. (GCN 6318
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 ), we calibrate the
OT to the r band magnitude of the nearby 20.434 mag star located at 
(J2000) RA = 182.73852, DEC = 39.93033. We find that the ABC data fades 
  as a power law decay with  index  ~-1.1, consistent with the 
detections  reported by Nishiura et al. (GCN 6308
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 ), Smith et al. (GCN 
6315
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 ), Updike  et al. (GCN 6317
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 ), Iizuka et al. (6317) (prior the ABC 
observations) and Fu et al. (GCN 6311
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 ) (after the ABC observations).

W. Landsman and M. Stamatikos (NASA/GSFC) report on behalf of the 
Swift/UVOT team

The Swift/UVOT began settled observations of GRB 070419A 115 seconds 
after  the BAT trigger (Stamatikos et al., GCN 6302
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 ).    The  afterglow 
first detected by Chornock et al. (GCN 6304
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 ) is weakly detected on the 
UVOT V-band image.  Photometry is difficult due to the presence of a 
diffraction spike from a 7th magnitude star 3' distant.    The bright 
star also precluded use of the UVOT broad-band white filter.     
Estimated magnitudes and 3-sigma upper limits are given below: 

Filter  Start(s)  End(s)   Exposure(s)    Magnitude
-----------------------------------------------------------------
V       115      515       394          20.2  �   0.3
V       869     1204       330          20.0  �   0.3
B       594      739        19          >18.7
U       569      861        58          >19.1

The magnitudes are not corrected for the Galactic reddening of E(B-V)=0.03

The  V band magnitudes are consistent with a brightening noted in 
previous reports (Williams et al. 6328, Wren et al. 6324, Cenko et al. 
6306).

P.A. Milne and G.G. Williams (U Arizona) report on behalf of the
Super-LOTIS team:

The 1.54m Kuiper telescope began R and V-band observations of the error
region of GRB070419A (Swift trigger 276205) at 10:26:37 UT, 27 minutes
after the burst.  The OT detected by Chornock et al. (GCN 6304
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 ) and
observed by Cenko et al., Urata et al., Rol et al., Smith et al.,
Updike et al., Wren et al., Williams et al., Yoshida et al., Swan et al.
(GCN 6306
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 /6322, 6308/6311, 6309, 6315, 6317, 6324, 6328, 6329, 6339)  is
clearly visible in the first image and all subsequent images until
11:36:36 UT.

We used the USNO-B star at RA=12:10:57.57, Dec=+39:55:40.2 to
derive the R and V magnitudes. For the R-band magnitude, we use R=15.22
(Cenko et al. GCN 6306
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 ). For the V-band magnitude, we used the
g=15.866 and r=15.447 magnitudes from Cool et al. (GCN 6318
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 ),
and derived a V magnitude of V=15.61 using the transformation
equations of Jester et al. (2005).

The R-band magnitude of the afterglow in the first image is:
UT Time       delta Time  R magnitude     error
10:26:37      60.0 s       19.12            0.09

The V-band magnitude of the afterglow in the first V-band image is:
UT Time       delta Time  V magnitude     error
10:35:35      60.0 s      19.66           0.14


This message can be cited.

P. Garnavich (Notre Dame), X. Fan, (U Ariz), X. Dai, J. Prieto,
K. Z. Stanek (Ohio State), J. Hill (LBTO/UAz), J. Bechtold (U Ariz),
R. M. Wagner (LBTO/OSU), J. Rhoads (Ariz State) report:

The Large Binocular Telescope (LBT) imaged the position of the GRB 070419A
afterglow (Stamatikos et al, GCN 6302
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 ; Chornock et al. GCN 6304
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 ) with the
LBC-blue CCD camera (http//lbc.mporzio.astro.it) and 8.4-m SX mirror on
2007 April 23.15 (UT). Ten dithered, 200 second exposures were obtained
with the Sloan-r filter in 1.2" seeing. The combined image shows a faint
source at J2000 12:10:58.80  39:55:33.71 +/-0.2 arcsec which is coincident
with the Chornock et al. coordinates.

Assuming the star at RA = 182.73852, DEC = 39.93033 J2000 has a Sloan r
MODEL magnitude of 20.394 mag (Swan et al. GCN 6339
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 ; Cool et al. GCN
6318
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 ), we find the source at the position of the afterglow to be
r=24.75 +/- 0.18 mag at 3.7 days after the burst.

Observations less than an hour after the burst by Smith et al. (GCN 6315
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 )
and Swan et al. (GCN 6339
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 ) compared with our photometry imply a power-law
decay index of 0.9+/-0.1 over nearly 4 days. This is consistent with the
initial decline index of 1.1 (Swan et al. GCN 6339
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 ) and suggests that
either no break in the light curve had occurred or the host galaxy is
contributing to the measured LBT flux.

The LBT image can be found at:
http://www.nd.edu/~pgarnavi/grb070419a/grb070419a_LBT.jpg

The LBT is an international collaboration among institutions in the
United States, Italy and Germany. The LBT Corporation partners are:
*  The University of Arizona on behalf of the Arizona university system
*  Istituto Nazionale di Astrofisica, Italy
*  LBT Beteiligungsgesellschaft, Germany, representing the Max Planck
Society, the Astrophysical Institute Potsdam, and Heidelberg University
*  The Ohio State University
*  The Research Corporation, on behalf of The University of Notre Dame,
University of Minnesota and University of Virginia


This message may be cited

A. Pozanenko (IKI), A. Shulga, A. Volnova (SAI MSU),  B. Hafizov, I.
Asfandiyarov, M. Ibrahimov (MAO) on behalf of larger GRB follow up
collaboration report:

We observed optical afterglow  of GRB070419A (Stamatikos et al, GCN 6302
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 ;
Chornock et al. GCN 6304
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 ) with 1.5m telescope of  Maidanak observatory
(MAO).  Several exposures in R-band in seeing ~1 arcsec were obtained on
Apr. 17 between (UT) 15:20 - 16:25.  In a combined image the source at
(J2000) RA= 12 10 58.83 DEC= +39 55 34.06 with an error in both coordinates
of 0.15" is compatible with the coordinates of Chornock et al. (GCN 6304
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 )
and Garnavich et al. (GCN 6406
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 ).

A photometry of the afterglow using USNO-A2.0 stars  is following:

T0+ ,      Exposure,  R_mag

0.245 d   11x300 s     22.4 +/- 0.3

Our observation is compatible with global power law decay index 0.9
(Garnavich et al. GCN 6406
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 ) suggesting no host galaxy contribution in epoch
of our observation.

The  combined image can be found at
http://grb.rssi.ru/GRB070419A/GRB070419A_AZT22_R.jpg

This message may be cited.

J. Hill (LBTO/UAz), P. Garnavich (Notre Dame), O. Kuhn (LBTO/UAz),
N. Bouche, P. Buschkamp (MPE), X. Fan, (U Ariz), X. Dai, J. Prieto,
K. Z. Stanek (Ohio State), P. Milne, J. Bechtold (U Ariz),
R. M. Wagner (LBTO/OSU), J. Rhoads (Ariz State) report:

The Large Binocular Telescope (LBT) continued to image the position of the
GRB 070419A afterglow (Stamatikos et al, GCN 6302
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 ; Chornock et al. GCN 6304
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 ;
Garnavich et al. GCN 6406
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 ) with the LBC-blue CCD camera
(http//lbc.mporzio.astro.it) and 8.4-m SX mirror. Data were obtained
2007 May 10.18 (UT) and May 20.22 (UT) which are 20.8 and 30.8
days after the burst. Using the calibration assumed by Garnavich et al.
(GCN 6406
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 ), we estimate the brightness of the source at the
position of the afterglow using point-spread-function fitting
photometry as follows:

 UT Date   Age (days)  Exposures   Seeing    r mag  Error
-----------------------------------------------------------
Apr 23.15    3.7        10x200s     1.2"     24.75   0.18 (GCN 6406
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 )
May 10.18   20.8        25x200s     0.96"    25.29   0.05
May 20.22   30.8        15x200s     0.73"    25.71   0.13

The decay between 4 days (LBT observation from GCN 6406
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 ) and 20 days
after the burst is very slow and corresponds to a power-law index of
0.3. This could indicate host galaxy contamination, but the
images remain unresolved. Extrapolating the decline to 30 days
post-burst predicts the afterglow should be 30% brighter than
the actual observed magnitude. This increased fading rate is
inconsistent with a host galaxy dominating the flux and
suggests light from a GRB progenitor supernova may be powering
the late-time light curve.

The Sloan-r filter has an effective wavelength of 623 nm which
maps to a rest-frame UV wavelength near 316 nm at a redshift
of 0.97 (Cenko et al. GCN 6322
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 ). The U-band light curve
of SN 1998bw peaked 13 to 15 days after GRB 980425 (Galama
et al. 1998, Nature, 395, 670) and possibly earlier at short
wavelengths.  Some supernovae associated with GRB such as
SN 2001dh/011121 (Garnavich et al. 2003, ApJ, 582, 924) and
2006aj/060218 (Modjaz et al. 2006, ApJ, 645, 21) have peaked
earlier than SN 1998bw, so the decay seen at 16 rest-frame days
is consistent with a supernova interpretation.

Extrapolating the spectrum of SN 1998bw near maximum (Patat et al.
2001, ApJ, 555, 900) out to UV wavelengths, we estimate a peak
brightness of R=25.4 when viewed at z=0.97, which is also consistent
with the LBT observations.

A plot of the light curve can be found at:
http://www.nd.edu/~pgarnavi/grb070419a/grb070419a_lc.jpg

The LBT is an international collaboration among institutions in the
United States, Italy and Germany. The LBT Corporation partners are:
*  The University of Arizona on behalf of the Arizona university system
*  Istituto Nazionale di Astrofisica, Italy
*  LBT Beteiligungsgesellschaft, Germany, representing the Max Planck
Society, the Astrophysical Institute Potsdam, and Heidelberg University
*  The Ohio State University
*  The Research Corporation, on behalf of The University of Notre Dame,
University of Minnesota and University of Virginia


This message may be cited