GRB 060206

D. Sharapov (MAO, and NOT, La Palma),  M. Ibrahimov, (MAO), A. Pozanenko
(IKI)  on behalf of larger GRB follow up collaboration report:

We  observed the localization of GRB 060206 (Morris et al., GCN 4682
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 )  with
1.5m telescope of Maidanak Astronomical Observatory in R-band between  (UT)
Feb. 07 23:26:38 and Feb. 08 00:36:06 (18x180 s) with a mean seeing 0.95".
We detect the afterglow (Fynbo et al., GCN 4683
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 ) at R=20.78 +/- 0.03  at
mean time (UT) Feb. 8.000. Calibration is based on  SDSS stars; Cool et al.,
GCN 4695
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  using the transformation equations (Lupton, 2005). Combining this
value with a light curve presented by Stanek et al. (astro-ph/0602495) one
can suggest the jet brake later than 0.6 days. The value R=20.78 +/- 0.03 is
also correlated with possible XRT light curve  rebrightening (XRT light
curve presented in the astro-ph/0602495). There is a tentative short time
scale rebrightening within our observation; more detailed calibration is
underway.

The stacked image can be found in
http://grb.rssi.ru/GRB060206/GRB060206_060207_AZT22_R.jpg

The message may be cited.

D. Reichart, A. LaCluyze, M. Nysewander, and J. Haislip report on behalf of
the UNC team of the FUN GRB collaboration:

In addition to detecting the afterglow (Fynbo et al., GCN 4683
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 ) of GRB
060206 (Morris et al., GCN 4682
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 ) in I band 27.0 hours after the burst with
PROMPT (Kirschbrown et al., GCN 4712
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 ; LaCluyze et al., GCN 4750
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 ) and 51.3
hours after the burst with SOAR (LaCluyze et al., GCN 4750
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 ), we detected
the afterglow in i' band 26.0 hours after the burst with PROMPT, in V band
51.7 hours after the burst with SOAR, and in R band 51.9 hours after the
burst with SOAR.

At 26.0 hours after the burst, we measure i' = 19.83 +/- 0.22 mag.

From our V and R photometry and a simple model of the Ly-alpha forest, we
infer i' = 21.55 +/- 0.08 mag at 51.8 hours after the burst.  (As a check,
simple interpolation between our R and I photometry yeilds i' = 21.36 +/-
0.05 mag at 51.6 hours after the burst.)  This implies a temporal index of
-2.3 +/- 0.3 between 26.0 and 51.8 hours after the burst, which is
consistent with and independent of our measurement of -2.20 +/- 0.26
between 27.0 and 51.3 hours after the burst in I band (LaCluyze et al., GCN
4750
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 ).

PROMPT and SOAR light curves can be viewed at:

http://www.physics.unc.edu/~reichart/grb060206.eps

Continued monitoring is strongly encouraged, particularly given that no
break is observed in X rays (Morris et al., GCN 4764
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 ).

D. C. Morris (PSU), C. Pagani (PSU), D. N. Burrows (PSU), J. A. Kennea 
(PSU) and K.Page (U. Leicester) report on behalf of the Swift XRT team:

The Swift XRT has continued to monitor the light curve of GRB060206 with 
data taken as late as T+8 days. Our complete X-ray dataset from T+5ks to 
T+700ks remains consistent with a single unbroken powerlaw decay with 
alpha=1.35+/-0.15. We note that there is apparent variability, both 
positive and negative, on the timescale of days in the X-ray lightcurve 
somewhat larger than is implied by simple counting statistics. Our data 
are not consistent, however, with a break to a slope of -2.2 at T+27 
hours and thus we cannot confirm the presence of the jet break reported 
in I-band observations by LaCluyze et al. (GCN 4750
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 ).

The XRT data remain consistent with the prediction by Palmer et al (GCN 
4597
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 ) of a jet break at 8.6 or 10.4 days (743ks or 899ks). The XRT 
countrate during the last observation, on February 14th, was 2e-3 cts/s, 
equivalent to a flux of approximately 1.5e-13 ergs/cm2/s. Observations 
are ongoing.

The XRT lightcurve can be viewed at 
http://www.swift.psu.edu/images/GRB060206.jpg

This circular is an official product of the Swift XRT Team.

A. LaCluyze, M. Nysewander, J. Haislip, A. de Oliveira, D. Reichart, J.
Santos, A. Alvarez, S. Heathcote, J. C. Clemens, and A. Trotter report on
behalf of the UNC team of the FUN GRB collaboration:

We observed the localization of GRB 060206 (Morris et al., GCN 4682
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 ) with
4.1m SOAR at CTIO in VRI beginning 50.8 hours after the burst.

We detect the afterglow (Fynbo et al., GCN 4683
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 ) at I = 20.70 +/- 0.04 mag
at an effective time of 51.3 hours after the burst (calibrated to six SDSS
stars; Cool et al., GCN 4695
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 ; using the transformation equations of Smith
et al. 2002.)

A more careful analysis of PROMPT's I-band detection from the night before
(Kirschbrown et al., GCN 4712
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 ) yeilds I = 19.17 +/- 0.18 mag at an
effective time of 27.0 hours after the burst.  This implies a temporal
index of -2.20 +/- 0.26 between 27.0 and 51.3 hours after the burst, which
is significantly steeper than the temporal index that we measured with
PROMPT on the first night (-1.0; Haislip et al., GCN 4709
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 )

This suggests that the jet is breaking, and at a significantly earlier time
than estimated by Palmer et al. (GCN 4697
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 ).

Continued monitoring is encouraged.

G. Greco (Bologna University), F. Terra, D. Nanni, (Second University
of Roma "Tor Vergata"), C. Bartolini, A. Guarnieri, A. Piccioni
(Bologna University), G. Pizzichini (INAF/IASF Bo) and R. Gualandi
(INAF Bologna) report:
 
During the night of February 6 -7, 2006 we observed the OT of
GRB 060206 (Morris et al. GCN 4682
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 ; Fynbo et al. GCN 4683
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 ) with
the 152 cm Loiano telescope equipped with the BFOSC camera system.
The weather conditions were not photometric and the seeing was
2.5 arcsec.
We obtained 3 images x 20 minutes in Rc filter, 2 x 30 minutes in V
and 2 x 20 minutes in I. The 2 V frames have been co-added.
We determined the following magnitudes derived from USNO-B1.0 (R1)
catalogue for the Rc and I bands and NOMAD catalogue for V band:
 
mean time (UT).......filter................ mag
 
6.960 ................ Rc ............ 19.78+/-0.15
6.976 ................ Rc ............ 19.70+/-0.11
6.990 ................ Rc ............ 19.79+/-0.12
7.025 ................ V ............. 20.06+/-0.17
7.054 ................ I ............. 19.16+/-0.11
7.069 ................ I ............. 19.19+/-0.10


We thank very much N. Masetti, who has obtained the images.
Our RVI images, in which the comparison stars are marked, have been 
posted in our public directory from where they can be retrieved by 
sftp using 
hostname: ermione.bo.astro.it
username: publicGRB
password: GRB_bo.

P. Boyd (GSFC), D. Morris (PSU), F. Marshall (GSFC), N. Gehrels (GSFC)
on behalf of the Swift/UVOT team report:

The Swift/UVOT began observing the bright afterglow of GRB 060206 at
04:47:52 UT on 2006-02-06, approximately 57s after the BAT trigger (Morris
et al., GCN 4682
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 ). The afterglow is well detected in the individual B and
V exposures during the initial observation. The afterglow re-brightens in
both filters between 2000 to 5000-s after the BAT trigger. After this
event, the flux decays in both filters with a slope of ~1.15.

Filter          T_range(s)      Exp(s)  Average mag
V                57-36588       2618     18.8 
B               1662-34946      2911     21.3 

Reported times are in seconds since BAT trigger.

In a follow-up observation, beginning about 0.8 d after the BAT trigger,
the source is not detected in B nor V down to the following 3-sigma
magnitude upper limits:

Filter          T_range(s)      Exp(s)  mag upper limit
V               69308-150688    5001     >21.7
B               69656-150353    4679     >22.6

The afterglow is not detected in any other UVOT filter down to the
following 3-sigma magnitude upper limits:

Filter          T_range(s)      Exp(s)   mag
U               1637-23385      1161    >21.5
UVW1            1757-5619       256     >20.6
UVM2            1733-30466      514     >21.3 
UVW2            1686-35861      2638    >22.7

These magnitudes are uncorrected for Galactic extinction;
E(B-V) = 0.013.

H. Terada, T.-S. Pyo (Subaru Telescope, NAOJ), N. Kobayashi
(University of Tokyo) and N. Kawai (Tokyo Tech) report:

"Near-infrared photometry of the afterglow of GRB 060206
(Morris et al., GCN #4682
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 ) in the J, K'-bands was performed with IRCS
(Infrared Camera and Spectrograph) on the SUBARU Telescope at February
7.5 UT. An average seeing was 0.5 arcsec in the J-band and 0.3 arcsec
in the K'-band. 
 
The magnitude of the afterglow was J=18.77 +/ -0.04 at 10:38-11:04 UT
(t=30.1 hr) and K'=17.78 +/ -0.01 at 13:37-14:30 UT (t=33.3 hr). The
near-infrared decay index of the afterglow is estimated to be -1.11 in
the J-band and -1.22 in the K'-band from comparison with the earlier
report (J=15.96 and Ks=14.54 at t=2.9 hr, GCN #4702
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 )."

This message may be cited.

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

"We observed the position of the GRB 060206 afterglow at 4.9 GHz with the
Westerbork Synthesis Radio Telescope at February 7 21.89 UT to February 8
9.86 UT, i.e. 1.71 - 2.21 days after the burst (GCN 4682
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 ).
We do not detect a radio source within the SWIFT/XRT error circle (GCN
4689
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 ), in particular at the position of the optical counterpart (GCN 4683
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 ,
GCN 4684
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 ). The formal flux measurement for a point source at the position
of the optical counterpart is 39 +/- 22 microJy.
We note there is a bright radio source at RA 13h31m44.2s, Dec +35d03'04.6"
(+/- 0.5 arcsec, J2000), i.e. 12 arcsec offset from the optical/X-ray
counterpart position, with a flux of 738 +/- 28 microJy."

This message may be cited.

M. Nysewander, J. Harvey, A. Foster, D. Reichart, J. A. Crain, K. Ivarsen,
and A. LaCluyze report on behalf of the UNC team of the FUN GRB
Collaboration:

We observed the localization of GRB 060206 (Morris et al., GCN 4682
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 ) with
the 14.5-inch Trubble Terrestrial Telescope (TTT) in the mountains west of
Fort Collins, Colorado, in red and green filters beginning 27.1 hours after
the burst under the automated control of Skynet:

Filter  Start (UT)  Stop (UT)  Exposures  Total (hr)
Red     07:54:35    08:50:41   14 x 160s  0.62
Green   09:20:34    11:12:58   35 x 160s  1.56

TTT is the first non-PROMPT telescope on Skynet.  Between 27.1 and 28.5
hours after the burst, these observations were taken in synch with PROMPT
observations (Kirschbrown et al., GCN 4712
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 ).

We do not detect the afterglow (Fynbo et al., GCN 4683
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 ) to R > 18.5 mag (3
sigma) at an effective time of 27.6 hours after the burst (calibrated to 5
USNO-B1.0 stars).

J. Kirshbrown, C. MacLeod, A. LaCluyze, J. Haislip, M. Nysewander, D.
Reichart, J. A. Crain, A. Foster, and K. Ivarsen report on behalf of the
UNC team of the FUN GRB collaboration:

We continued to observe the localization of GRB 060206 (Morris et al., GCN
4682
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 ) with three of the PROMPT telescopes in Ui'I beginning 25.7 hours
after the burst under the automated control of Skynet.

We detect the afterglow (Fynbo et al., GCN 4683
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 ) at I = 18.79 +/- 0.16 mag
at an effective time of 26.3 hours after the burst (calibrated to five SDSS
stars; Cool et al., GCN 4695
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 ; using the transformation equations of Smith
et al. 2002.)

In the i' band, the afterglow continues to fade as a power law (Haislip et
al., GCN 4709
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 ), with a best-fit temporal index of -1.05 between 1.63 and
26.3 hours after the burst.

PROMPT is currently being built and commissioned at CTIO.

M. Nysewander, D. Reichart, A. Foster, M. Schwartz, P. Holvorcem report on
the behalf of the UNC team of the FUN GRB Collaboration:

We observed the localization of GRB 060206 (Morris et al., GCN 4682
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 ) with
the 32-inch Tenagra II telescope in the Arizona Sonoran Desert in the V
band beginning 26.5 hours after the burst.

We do not detect the afterglow (Fynbo et al., GCN 4683
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 ) to V > 19.2 mag (3
sigma) at an effective time of 27.3 hours after the burst (calibrated to
five NOMAD stars).

J. Haislip, A. LaCluyze, C. MacLeod, M. Nysewander, D. Reichart, J. A.
Crain, A. Foster, K. Ivarsen, and J. Kirshbrown report on behalf of the UNC
team of the FUN GRB collaboration:

We observed the localization of GRB 060206 (Morris et al., GCN 4682
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 ) with
two of the PROMPT telescopes in Ur'i' between 1.63 and 3.36 hours after the
burst under the automated control of Skynet.

The afterglow (Fynbo et al., GCN 4683
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 ) faded from r' = 16.85 +/- 0.05 mag
to r' = 17.83 +/- 0.12 mag over this period (calibrated to five SDSS stars;
Cool et al., GCN 4695
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 .)  The best-fit temporal index is -1.0.

PROMPT is currently being built and commissioned at CTIO.

D. Malesani (SISSA), H. Navasardyan (INAF/OApD), S. Piranomonte 
(INAF/OAR), N. Masetti (INAF/IASF Bo), report on behalf of a larger 
Italian collaboration:

We observed the afterglow of GRB 060206 (Morris et al., GCN 4682
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 , 4689
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 ; 
Fynbo et al., GCN 4683
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 ) with the AFOSC instrument at the Asiago 
observatory (Northern Italy). The observing conditions were awful 
(seeing of ~3.3"). Photometry was carried out in the R- and i- filters.

Despite the bad sky conditions, the object was well detected in both 
filters (S/N~20). In particular, we find R = 19.65 +- 0.20 in comparison 
with several USNO-B1 stars (R1 magnitude). The error is mostly due to 
calibration. The mean time of the R-band observations (lasting 1 hr 
overall) is 2005 Feb 7.0037 (0.80 d after the GRB).

This message may be cited.

K. Aoki, T. Hattori (Subaru Telescope, NAOJ), 
K. S. Kawabata (Hiroshima University), and N. Kawai (Tokyo Tech)
report on behalf of the Subaru GRB team:

"We have obtained the optical spectra of the afterglow of GRB060206
(Morris et al., GCN 4682
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 ) with FOCAS attached to the Subaru 8.2 m
Telescope on Mauna Kea.

We have taken the spectra covering wavelength regions of 5000-10000 A
at Feb 6.5 (UT) with a total exposure time of 4 hours.  The spectral
resolutions were about R=500-1000.  The optical spectra clearly show
rich absorption lines, with which we confirm the redshift of 4.05
(Fynbo et al. GCN 4692
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 ).  We have detected C IV 1550, Fe II 1608, and
Al II 1670 in addition to Si II, Si II*, O I, C II, and Si IV reported
in GCN 4692
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 .  Besides the z=4.05 systems, we have found the z=2.26
and z=1.48 systems which show Mg II 2800 and Fe II absorption lines."

K. Alatalo, D. Perley and J. S. Bloom (UCB) report:

Starting at 2006-02-06 07:41:37 UT (2.91 hrs after the trigger) we began 
observing the field of GRB060206 (GCN 4682
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 ) with PAIRITEL. The transient 
reported by Fynbo et al. (GCN 4683
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 , GCN 4689
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 ) is well detected in each 
of the 1800s mosaics simultaneously in JHKs bands, and is seen to fade 
between mosaics. The preliminary magnitude of the transient in the first 
epoch of imaging in each band, calibrated to the 2MASS catalog, is:

J: 15.96 +- 0.03
H: 15.25 +- 0.03
Ks: 14.54 +- 0.04

This message may be cited.

J. X. Prochaska (UC Santa Cruz), D. S. Wong, S. H. Park,
A. V. Filippenko, R. J. Foley, and W. Li (UC Berkeley)
report:

"We observed the afterglow of GRB 060206 with the Kast
double spectrograph on the Shane 3-m reflector at Lick
Observatory for 6000 s starting at UT 10:11 on 6 Feb.,
under poor observing conditions.  We confirm the report
from Fynbo et al. (GCN 4692
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 ) of strong metal-line features
and a damped Lya profile centered at z = 4.048 +/- 0.001.
The absence of a Lya forest redward of 6200 Ang marks this
absorption system as the ISM of the host galaxy of GRB 060206.

A Voigt profile analysis of the Lya profile gives
log N(HI) = 20.90 +/- 0.15. The absence of a strong feature at
SII 1253 places an upper limit to the metallicity of
[S/H] < -0.9, while the detection of Fe II 1608 implies
[Fe/H] > -1.7 dex.  Finally, the rest EW of Si II 1526
(1.1 Ang) implies a velocity width for the low-ionization
species greater than 200 km/s.

This GCN may be cited.

P.A.Milne (Steward Obs), G.G. Williams (MMTO),
on behalf of the Super-LOTIS GRB team reports:
 
We observed the optical afterglow of GRB 060206 (GCN 4682
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 , GCN 4683
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 ) using
the 60cm Super-LOTIS telescope at Kitt Peak, Arizona. Imaging began at
08:59:30 UT, 4.2 hours after the burst, and consisted of 20 one-minute
exposures in both the R and V filters. The optical counterpart was
detected at the following magnitudes:
 
UT Start    UT End    FILTER    Magnitude
08:59:30   09:25:50     R       17.87 +/- 0.12
09:27:00   09:52:20     V       18.37 +/- 0.22
 
Magnitudes are based upon comparison with 9 & 5 stars, respectively,
from the Nomad-1 catalog, accessed through the USNO catalog service.

D. Palmer (LANL), L. Barbier (GSFC), S. Barthelmy (GSFC), 
M. Chester (PSU), J. Cummings (GSFC/ORAU), E. Fenimore (LANL), 
N. Gehrels (GSFC), D. Hullinger (UMD), H. Krimm (GSFC/USRA), 
C. Markwardt (GSFC/UMD), F. Marshall (GSFC), T. Mitani (ISAS),  
A. Parsons (GSFC), T. Sakamoto (GSFC/ORAU), G. Sato (ISAS), 
M. Suzuki (Saitama), J. Tueller (GSFC), on behalf of the Swift/BAT team:

Using the data set from T-60 to T+123 sec from the recent telemetry
downlink, we report further analysis of BAT GRB 060206 (trigger 
# 180455) (GCN Circ 4682
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 , Morris et al.).  The BAT ground-calculated 
position is (RA,Dec) = 202.932, 35.050 deg {13h 31m 43.8s, 35d 2' 58.7"}
(J2000) +- 1.0 arcmin, (radius, sys_stat, 90% containment).  The partial 
coding was 98%.

The 1-second binned light curve shows a single peak which extends out to 
around 8 seconds in the two lowest energy bins (15-25 and
25-50 keV), but is shorter in duration in the two highest energy bins 
(50-100 and 100-350 keV), extending out to only about 4 seconds.  This 
could be an indication the burst is softening with time.  The highest 
energy bin shows a possible double peak structure, with the first peak 
at T0-1 second.  T90 (15-350 keV) is 7 +- 2 seconds (estimated error 
including systematics).  

The time-averaged spectrum from T-0.6 to T+13.7 is best fit by a 
power law with an exponential cutoff. This fit gives a photon index 
1.06 +- 0.34, and Epeak of 75.4 +- 19.5 keV (chi squared 57.88 
for 56 d.o.f.).  For this model the total fluence in the 15 - 150 keV 
band is (8.4 +- 0.4) x 10^-07 erg/cm2 and the 1-sec peak flux 
measured form T+2.11 sec in the 15-150 keV band is (2.8 +- 0.2) 
ph/cm2/sec.  A fit to a simple power law gives a photon index 
of 1.69 +- 0.08 (chi squared 69.94 for 57 d.o.f.). 
All the quoted errors are at the 90% confidence level.

Using the best fit photon index and Epeak with a Band model with
the high energy photon index fixed at beta = -2.5, and the redshift 
of 4.045 (Fynbo et al. GCN 4692
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 ), the isotropic-equivalent energy, 
Eiso, integrated from 1 to 1000 keV at the GRB rest frame is
5.8 x 10^52 ergs.  This Eiso and the Epeak at the GRB rest frame
((1+z)*Epeak = 380 keV) are consistent with the Epeak-Eiso (Amati)
relation (Amati et al, 2002).  The Eiso in the BAT observed
energy band (76 - 757 keV in the GRB rest frame) is 3.1 x 10^52 ergs. 

The estimated jet break time using the Eiso-Epeak-t_break relation
(Liang & Zhang, ApJ, 633, 611) would be 8.6 days after the burst
at the observer's frame (using the Band model).  Using a cutoff 
power-law for the analysis (which is also consistent with the 
data) gives a 10.4 day estimate for the break time.

C.S. Lin, H.C. Lin, C.W. Chen, K.Y Huang W.H. Ip (NCU)
Y. Urata (RIKEN), Y. Qiu (NAOC) on behalf of EAFON report: 

"We are observing GRB 060206 optical afterglow using 0.4-m and 1.0-m
telescope at Lulin observatory, Taiwan. The imaging observation with
B, V, R and I band were started at 15:49:15 UT (11.04 hours after the
burst). The optical afterglow is detected in all bands.

The stacked B-band image made from three 300 s exposures is available at

  http://cosmic.riken.go.jp/grb/eafon/GRB060206_Lulin-B.jpg

 MID Time(UT) Filter Exp.  mag   Telescope
 -----------------------------------------
 15.86        R      300s  18.8  LOT

Further observations and analysis are in progress"

Richard J. Cool (Arizona), Daniel J. Eisenstein (Arizona), David
W. Hogg (NYU), Michael R. Blanton (NYU), David J. Schlegel
(LBNL), J. Brinkmann (APO), Donald P. Schneider (PSU), and
Daniel E. Vanden Berk (PSU) report:

The Sloan Digital Sky Survey (SDSS) imaged the field of burst
GRB060206 prior to the burst.  As these data should be useful
as a pre-burst comparison and for calibrating photometry,
we are supplying the images and photometry measurements for
this GRB field to the community.

Data from the SDSS, including 5 FITS images, 3 JPGS, and
3 files of photometry and astrometry, are being placed at
http://mizar.as.arizona.edu/~grb/public/GRB060206

We supply FITS images in each of the 5 SDSS bands of a 8'x8'
region centered on the GRB position (ra=202.946 (13:31:47.0),
dec=35.0750 (35:04:30.0); GCN 4682
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 ), as well as 3 gri
color-composite JPGs (with different stretches). The units
in the FITS images are nanomaggies per pixel.  A pixel is
0.396 arcsec on a side. A nanomaggie is a flux-density unit
equal to 10^-9 of a magnitude 0 source or, to the extent that
SDSS is an AB system, 3.631e-6 Jy.  The FITS images have WCS
astrometric information.

In the file GRB060206_sdss.calstar.dat, we report photometry
and astrometry of 346 bright stars (r<20.5) within 15' of the
burst location.  The magnitudes presented in this file are asinh
magnitudes as are standard in the SDSS (Lupton 1999, AJ, 118,
1406). Beware that some of these stars are not well-detected
in the u-band; use the errors and object flags to monitor
data quality.

In the files GRB060206_sdss.objects_flux.dat and
GRB060206_sdss.objects_magnitudes.dat, we report photometry
of 771 objects detected within 6' of the GRB position.
We have removed saturated objects and objects with model
magnitudes fainter than 23.0 in the r-band.  The fluxes listed
in GRB060206_sdss.objects_flux.dat are in nanomaggies while
the magnitudes listed in GRB060206_sdss.objects_magnitudes.dat
are asinh magnitudes.

All quantities reported are standard SDSS photometry, meaning
that they are very close to AB zeropoints and magnitudes are
quoted in asinh magnitudes.  Photometric zeropoints are known
to about 2% rms.  None of the photometry is corrected for
dust extinction.  The Schlegel, Finkbeiner, and Davis (1998)
predictions for this region are A_U=0.054 mag, A_g=0.040 mag,
A_r = 0.029 mag, A_i=0.022 mag, and A_z=0.015 mag.

There are currently no objects within 6 arcminutes of the GRB
position in the SDSS spectroscopic database.

SDSS astrometry is generally better than 0.1 arcsecond per
coordinate.  Users requiring high precision astrometry should
take note that the SDSS astrometric system can differ from
other systems such as those used in other notices; we have
not checked the offsets in this region.

More detailed information pertaining to our SDSS GRB releases
can be found in our initial data release paper (Cool et
al. 2006, astro-ph/0601218).  See the SDSS DR4 documentation
for more details: http://www.sdss.org/dr4.

These data have been reduced using a slightly different
pipeline than that used for SDSS public data releases.
We cannot guarantee that the values here will exactly match
those in the data release in which these data are included.
In particular, we expect the photometric calibrations to differ
by of order 0.01 mag.

This note may be cited, but please also cite the SDSS data
release paper, Adelman-McCarthy et al. (2006, ApJS, in press,
astro-ph/0507711), when using the data or referring to the
technical documentation.

D. Morris (PSU), D. Burrows (PSU), N. Gehrels (GSFC), J. Greiner (MPE), 
D. Hinshaw (GSFC-SPSYS) report on behalf of the Swift XRT team:

We have analyzed the Swift XRT data from the first orbit of GRB 060206 
(Morris et al., GCN4682
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 ), with a total exposure of 337 seconds. The 
refined XRT position is:

RA(J2000) = 13h 31m 43.4s
Dec(J2000) = +35d 03' 02"

This position is 99.0 arcseconds from the BAT position given in GCN 4682
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and 1
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 .8 arcseconds from the optical afterglow position reported in GCN 
4683
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  (Fynbo et al) and refined in GCN 4684
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  (Boyd et al). We estimate an 
uncertainty of 4 arcseconds radius (90% containment).

The 0.2-10 keV light curve starts 65 seconds from the BAT trigger (T0). 
Due to the the spacecraft entry into the SAA, only a very small amount 
of data was collected during the first orbit. The available data suggest 
a decaying lightcurve but are too sparse to determine an accurate 
measure of the decay slope.

A preliminary spectral fit to the PC data gives a spectral power law 
photon index of 2.0 � 0.3 in the 0.2-10 keV band with NH of 4e20 
+4e20/-3e20. The galactic NH value for this direction is 1e20. The 
unabsorbed 0.2-10 keV flux at the start of the XRT observation is 
estimated to be about 8E-11 erg/cm2/s. Due to the uncertain nature of 
the decay slope, we are currently unable to predict the expected flux at 
T+24hrs.

Observations are ongoing  and we will distribute further analysis as 
data become available.

This circular is an official product of the Swift XRT Team.

C. Guidorzi, A. Monfardini, A. Gomboc, C.G. Mundell, A. Melandri,
C.J. Mottram, R.J. Smith, I.A. Steele, D. Carter, M. Burgdorf,
S. Kobayashi, D. Bersier, M.F. Bode (Liverpool JMU) report:

"The 2-m Liverpool Telescope followed up the GRB060206 (Morris et
al, GCN 4682
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 ) and started observing its position at 5.23 min after the
GRB. We detect the optical afterglow in agreement with the candidate
from Fynbo et al. (GCN 4683
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 ) and Boyd et al. (GCN 4684
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 ).

The magnitude of the afterglow was R~16.5 (USNO-B1 calibrated) at ~5.2
min after the burst. After an initial fading, we confirm the
rebrightening (Wozniak et al., GCN 4687
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 ) with R~16.3 at 60 min
after the burst trigger time."

Johan P. U. Fynbo, Marceau Limousin, Jos� Mar�a Castro Cer�n,
Brian L. Jensen (DARK Cosmology Centre), Jyri N�r�nen (Helsinki
Observatory) report on behalf of a larger collaboration:

"From the calibrated ALFOSC spectrum of the afterglow of GRB 060206
(GCN #4682
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 , #4683
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 , #4684
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 , #4686
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 ) we measure a redshift of
z=4.045 based on Lyman-alpha, SiII, SiII*, OI, CII and SiIV
among other lines. Our previous estimate was off due to a
calculation error for which we apologise."

E. O. Ofek, S. B. Cenko, A. M. Soderberg (Caltech), and D. B. Fox (Penn
State) report on behalf of a larger collaboration:

We have imaged the error circle of GRB060206A (Morris et al. GCN 4682
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 ),
with the automated Palomar 60-inch telescope, starting 1.4 hours after the
GRB trigger.  Observations were taken under poor external conditions
(cirrus clouds and below-average seeing).

We find the afterglow reported by Fynbo et al. (GCN 4683
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 ) at J2000.0
coordinates:

	RA: 13:31:43.47
	Dec: +35:03:03.3

The R-band magnitude of the afterglow, ~3.44 hours after the GRB trigger
was about 17.2, assuming R=16.17 for the nearby USNO-B1 star 1250-0209088
(13:31:43.65 +35:02:31.4).

A finding chart can be found at:

http://astro.caltech.edu/~eran/GRB/060206/GRB060206_FC.jpg

W. Li, University of California, Berkeley, on behalf of the 
KAIT GRB team, report: 

We began observations of the error box of GRB 060206 reported
by Morris et al. (GCN 4682
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 ) with the robotic 0.76-m Katzman
Automatic Imaging Telescope (KAIT) at Lick Observatory at about
3.9 hours after the burst, and the afterglow reported by Fynbo
et al. (GCN 4683
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 ) was clearly detected in all the images. The
afterglow is at magnitude 17.95 +/- 0.05 (calibrated to USNO
B1.0) in a 120s unfiltered image started at 08:41:52 UT (3.92
hours after the burst).  A finder chart of the afterglow can 
be found at http://astron.berkeley.edu/~weidong/grb060206.gif .

D. Morris (PSU), D. Burrows (PSU), N. Gehrels (GSFC), P. Boyd 
(GSFC-UMBC),  L. Angelini (GSFC-JHU) report on behalf of the Swift XRT 
team:

We have analyzed the Swift XRT data from the first orbit observation of 
GRB 060206 (Morris et al., GCN4682
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 ), with a total exposure of 337 
seconds. We find an uncataloged, fading source at:

RA(J2000) = 13h 31m 43.4s
Dec(J2000) = +35d 03' 02.0"

This position is 99.0 arcseconds from the BAT position given in GCN 4682
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and 1
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 .8 arcseconds from the optical afterglow position reported in GCN 
4683
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  (Fynbo et al) and refined in GCN 4684
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  (Boyd et al). We estimate an 
uncertainty of 4 arcseconds radius (90% containment).

This circular is an official product of the Swift XRT Team.

A.L. Homewood, K.V. Garimella, D.H. Hartmann (Clemson University), R.
Kaitchuck (BSU), and J.S. Shaw (UGA), report on behalf of the Clemson GRB
Follow-Up Team:

We began observations of the error box reported by Morris, et al (GCN
4682
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 ), beginning approximately 2.5 hours after the burst trigger. We
confirm the afterglow reported by Fynbo, et al (GCN 4683
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 ). We derive a
magnitude of R=17.77 +/- 0.26 mag after co-adding 10 300-second exposures
and calibrating relative to the USNO A2.0 catalog. The image may be found
at

http://people.clemson.edu/~kgarime/burst/detections/grb060206/

No extinction corrections have been made. Observations are continuing.

The Clemson Unversity GRB Response Site may be found at:
 http://people.clemson.edu/~kgarime/burst/index.php
The SARA Homepage may be found at:
 http://www.saraobservatory.org

This message may be cited.

P.R. Wozniak, W.T. Vestrand, J. Wren, R. White, and S. Evans
at Los Alamos National Laboratory on behalf of the RAPTOR team report:

RAPTOR's autonomous system for locating optical counterparts to GRBs
identified a variable object at position RA=202.931, DEC=35.0509 deg.
At 2900 seconds after the trigger RAPTOR measured an R-band magnitude
of ~17.3, followed by a brightening to ~16.3 mag over the next 700 seconds,
where it remained for about 200 seconds before fading to ~16.9 mag
over the next 45 min. The real time position was reported only to the RAPTOR
rapid response team because of unusual photometric behavior of the object.
This variable source has a location consistent with the position of the
optical afterglow candidate found by Fynbo et al. (GCN 4683
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 ) and confirmed
by Boyd et al. (GCN 4684
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 ).

Johan P. U. Fynbo, Brian L. Jensen, Jos� Mar�a Castro Cer�n
(DARK Cosmology Centre), Jyri Naeraenen (Helsinki Observatory) report
on behalf of a larger collaboration:

"Using ALFOSC on the Nordic Optical Telescope we have obtained
a spectrum of the afterglow of GRB 060206 (GCN #4682
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 , 4683
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 , #4684
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 ).
The spectrum shows a rich Lyman-alpha forest as well as metal lines
from the GRB host/environment. We still do not have a formal
wavelength calibration, but a preliminary analysis indicates
a redshift close to 5."

P. Boyd (GSFC), S. Hunsberger (PSU), and C. Gronwall (PSU)
on behalf of the Swift UVOT team:

The list of sources from the first 72-second V UVOT finding chart
exposure contains a bright, uncataloged optical source coincident
with the position reported by Fynbo et al (GCN 4683
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 ).

The UVOT source position is
         RA(2000) 202.9309
         Dec(2000) 35.0510

The mean positional error between known sources in the field and catalog
entries is 0.47".

The V magnitude is estimated to be approximately 16.7. No correction
has been made for the expected extinction of about 0.04 magnitudes.

Johan P. U. Fynbo, Brian L. Jensen, Jos� Mar�a Castro Cer�n
(DARK Cosmology Centre), Jyri Naeraenen (Helsinki Observatory) report
on behalf of a larger collaboration:

"Using ALFOSC on the Nordic Optical Telescope we have identified
the likely afterglow of GRB060206 (GCN #4682
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 ) to the position:

RA(2000), Dec(2000) = 13:31:43.4, +35:02:59.9  (+/-5 arcsec)

Further observations are in progress"

D. Morris (PSU), L. Barbier (GSFC), S. Barthelmy (GSFC),
J. Cummings (GSFC/ORAU), N. Gehrels (GSFC), S. Hunsberger (PSU),
C. Markwardt (GSFC/UMd), D. Palmer (LANL), and E. Rol (U. Leicester)
on behalf of the Swift team:

At 04:46:53 UT, Swift-BAT triggered and located GRB060206  
(trigger=180455).
The spacecraft slewed immediately. The BAT on-board location is
RA,Dec 202.946d,+35.075d {13h 31m 47s,+35d 04' 29"} (J2000), with
an uncertainty of 3 arcmin (radius, 90% containment, stat+sys).
The BAT light curve showed a single bright gaussian-peak
structure from T-1 to T+10 sec. The peak count rate was ~6000
counts/sec (15-350 keV), at ~2 seconds after the trigger.

The XRT began taking data at 04:47:52, 58 seconds after the BAT trigger.
The XRT on-board centroid  algorithm did not find a source in the image
and no prompt position is available. The burst occurred shortly before
entry into the SAA, and therefore the count-rate lightcurve may be
insensitive to a fading source.  We are waiting for down-linked data
to determine a position.

UVOT took a finding chart exposure of 72 seconds with the V filter
starting 58 seconds after the BAT trigger. No afterglow candidate has
been found in the initial data products. The 2.7'x2.7' sub-image
covers 25% of the BAT error circle.  The 8'x8' region for the list
of sources generated on-board covers 100% of the BAT error circle.
No correction has been made for the expected extinction of
about 0.04 magnitudes.