//////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 878 SUBJECT: BeppoSAX ALERT: GRB001109 DATE: 00/11/09 16:05:52 GMT FROM: Luigi Piro at IAS/CNR Frascati BeppoSAX ALERT: GRB001109 On Nov. 09, 09:23:17 U.T. a GRB (GRB001109) has been detected simultaneosly by the GRBM and WFC1 aboard BeppoSAX. Preliminary coordinates from WFC are: R.A.(2000)= 277.507 DEC.(2000)= 55.307 The error radius at this stage of analysis is 4'. We are planning a BeppoSAX-NFI observation. G. Gandolfi on behalf of BeppoSAX Mission Scientist //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 879 SUBJECT: GRB001109: BeppoSAX refined WFC position DATE: 00/11/09 17:14:43 GMT FROM: Luigi Piro at IAS/CNR Frascati GRB001109: BeppoSAX refined WFC position Refined coordinates of GRB001109 from WFC are: R.A.(2000)= 277.531 DEC.(2000)= +55.301 The error radius is 2.5'. G. Gandolfi on behalf of BeppoSAX Mission Scientist //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 880 SUBJECT: GRB001109, Radio observations DATE: 00/11/10 00:10:39 GMT FROM: Greg Taylor at NRAO G. B. Taylor, D. A. Frail (NRAO), and J. S. Bloom (Caltech) report on behalf of a larger collaboration: "We have imaged the entire 2.5 arcmin WFC error circle of GRB 001109 (GCN 879) with the VLA at 8.47 GHz on UT 2000 Nov. 9.80. We detect one radio source which we designate VLA J1830+5518. The coordinates of VLA J1830+5518 are: RA = 18h30m06.51s, DEC = 55d18'35.7" (equinox J2000) with conservative errors of 0.1 arcsec in each coordinate. The flux density on Nov. 9.8 is 236 +/- 31 microJy. The size of VLA J1830+5518 is less than 0.4 arcsec. No source is detected in the NRAO VLA Sky Survey (NVSS; Condon et al. 1998, AJ, 115, 1693) above their flux limit of 1 mJy at 1.4 GHz. The density of sources on the sky stronger than 250 microJy at 8.4 GHz is 0.0145 arcmin**-2. We computed an astrometric solution for the DSS-2 image of the field using the USNO-A2.0 catalogue and found no obvious optical point source at the position of the radio object." This message may be cited. //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 881 SUBJECT: GRB001109, R-band optical observations DATE: 00/11/10 06:38:23 GMT FROM: Krzysztof Z. Stanek at CfA K. Z. Stanek (CfA), P. Garnavich (Notre Dame), K. L. Luhman and B. A. McLeod (CfA) report: We imaged the WFC error box (GCN 879) of GRB001109 with the FLWO 1.2m telescope and R-band filter starting on 2000 Nov. 10.087 (UT). We obtained 2x600-sec R-band exposures. Near the position of the radio source reported by Taylor et al. (GCN 880) we detect faint optical source, R~21.0, located at RA=18:30:06.63, DEC=55:18:34.95 (2000.0). The magnitude estimate for this source was obtained by comparing to USNO star ``A'' at RA=18:30:06.38, DEC=55:19:05.8 (2000.0), R=19.0. This faint optical source near the position of the radio source is also marginally visible at the POSS-II red plate, and thus most likely is not an optical counterpart to GRB001109. Within the WFC error box we do not see any ``new'' sources brighter than R~20.5. Our composite 1200-sec R-band image is available at http://cfa-www.harvard.edu/cfa/oir/Research/GRB/, along with the POSS-II finding chart with positions of the sources marked. This message can be cited. //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 882 SUBJECT: GRB001109: BeppoSAX/NFI Observations DATE: 00/11/10 11:30:02 GMT FROM: Luigi Piro at IAS/CNR Frascati GRB001109: BeppoSAX/NFI Observations A BeppoSAX TOO observation (20 ksec) of GB001109 has started about 16 hours after the GRB. Preliminary analysis of the first three orbits shown a bright and unknown source in the MECS(1.6-10 keV) image. The position is: RA = 277.525 Delta = 55.309 The error radius is 1.5 arcminutes. At this stage still we don't detect an unambiguous fading behaviour of this X-ray source. G. Gandolfi on behalf of BeppoSAX Mission Scientist //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 883 SUBJECT: GRB001109: Optical observations DATE: 00/11/10 16:32:09 GMT FROM: Vasilij Rumjantsev at CrAO V.Rumjantsev and L.Pavlenko (on behalf of Crimean Observatory and Space Research Institute (Moscow) GRB follow-up teams) report: "We have imaged of the error box for GRB 001109 (G. Gandolfi et al., GCN 878) with the 0.64-m and the 0.38-m Cassegrain telescopes of Crimean Astrophysical Observatory. A first frame was obtained on Nov 9 15:50:21 UT (i.e. 6.5 hours after the GRB). Conditions were not so good. Our images cover all but the square half degree. No new objects are seen within the error box when comparing to the DSS-2 (R-band), brighter a limiting integral magnitude of 20 mag (at 0.64-m telescope) and also brighter then 17 mag in V (at 0.38-m telescope)." //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 885 SUBJECT: GRB 001109 X-ray afterglow with BeppoSAX DATE: 00/11/16 16:02:28 GMT FROM: Filippo Frontera at ITESRE CNR L. Amati, F. Frontera, and E. Pian, Istituto Tecnologie e Studio Radiazioni Extraterrestri, CNR, Bologna; P. Giommi and M. Capalbi, BeppoSAX Science Data Center, Rome; E. Costa and G. Gandolfi, Istituto di Astrofisica Spaziale, CNR, Rome; J. J. M. in 't Zand, Space Research Organization Netherlands; C. Guidorzi, Universita di Ferrara; S. Granata and A. Paolino, BeppoSAX Science Operation Center, Rome, report: "The 2'.5 error box of GRB 001109 provided by the BeppoSAX Wide Field Cameras was observed with the BeppoSAX Narrow Field Instruments from Nov. 10.0762 (16.5 hr after the gamma-ray burst) to 10.9847 UT. A previously unknown source lying inside the error box has been detected by the Medium Energy Concentrator Spectrometer. The source, designated 1SAX J1830.1+5517, is located at R.A. = 18h30m07s.8, Decl. = +55o17'56" (equinox 2000.0; error radius 50") and has an average count rate of 0.00914 +/- 0.0007 count/s in the two MECS units, corresponding to a 2-10-keV flux of (7.1 +/- 0.5) x 10**-13 erg cm**-2 s**-1. The flux decreases by a factor of about 2 during the first 20 000 s of the observation. Due to its fading behavior, 1SAX J1830.1+5517 is likely the x-ray afterglow of GRB 001109. We remark that the position of this source is consistent with that of the previously unknown radio source detected in the GRB 001109 error box by Taylor et al. (GCN 880). A second BeppoSAX NFI observation of the field is in progress." This message can be cited //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 886 SUBJECT: GRB 001109: deep JHK upper limits DATE: 00/11/17 21:06:29 GMT FROM: Paul Vreeswijk at U of Amsterdam P. Vreeswijk, E. Rol (U. of Amsterdam), C. Packham (U. of Florida), N. Tanvir (U. of Hertfordshire), C. Kouveliotou (MSFC/USRA), R. Wijers (SUNY) and J. Knapen (ING/U. of Hertfordshire), report on behalf of a larger collaboration: We observed the field of GRB 001109 [1] in J, H and Ks with INGRID on the 4.2m William Herschel Telescope on La Palma, Canary Islands on Nov. 9.8 and 11.8 UT, respectively 10 and 59 hours after the burst. The 50" radius error circle of the reported X-ray afterglow of GRB 001109 [2] is located at the center of our 4.2'x4.2' images. We observed the UKIRT faint standard #30 [see 3] to calibrate the field. The stellar FWHM in the co-added frames ranges from 0.9" to 1.3" (pixelsize=0.25"). The first table below shows the log of the observations, including the estimated 3-sigma limiting magnitude (using an aperture diameter twice the size of the FWHM). At the position of the radio source detected in the field [4], we observe extended emission, consisting of a bright component (with a PSF FWHM significantly larger than that of point sources in the field), and a fainter peak, separated by roughly 1". The magnitudes that we measure for this emission (using an aperture radius of 2.5"), are also listed in the table. Within the errors (which do not include the uncertainty in the calibration), this source does not vary. This confirms the expectation [5] that the emission from this location is probably not related to the GRB. UT date filter exptime lim. mag. radio source ----------------------------------------------------------- 2000 Nov. 9.81 J 300s 21.3 18.64 (0.05) 9.80 H 750s 21.0 17.96 (0.03) 9.79 Ks 750s 19.9 16.96 (0.04) 11.86 J 600s 21.4 18.70 (0.05) 11.82 H 600s 20.7 17.93 (0.08) 11.83 Ks 600s 19.4 17.07 (0.07) Furthermore, after close inspection of the images by eye and by comparing the aperture magnitudes of all the detectable objects between the two epochs, we do not find an afterglow candidate. To our knowledge, our images present the deepest near-infrared upper limit on a GRB afterglow brightness to date. The table below shows all GRB afterglow near-IR detections and upper limits (that we could find) with observations performed within 3 days of the burst occurrence. It is clear that our early deep observations would have easily discovered any of the detections in the table, and that they are both earlier and deeper than the reported upper limits. This result suggests that at least some bursts are intrinsically faint in the near-IR and that the dust obscuration explanation for the GRB afterglow non-detections in the optical may not be valid in all cases, unless this burst occurred at a redshift large enough for the optical/UV extinction in the rest frame to move into the K band regime in the observer's frame. GRB magnitude hrs. since burst reference -------------------------------------------------------------------- 971214 J=20.3 11 [6] 980329 J~19.2 16 [7] 980703 H=17.6 30 [8] 990123 K=18.3 29 [9] 990510 J=17.1, H=16.4, K=16.6 14 [10] 990705 H=16.6 7 [11] 991216 J=16.8, K=15 13 [12] H=17.2 35 [13] 000214 K>18.2 32 [14] 000301C K~17.4 50 [15] 000418 K~17.5 60 [16] 000516 J>20.5, K>17.5 17 [17] 000615 H>20.5 17 [18] 000926 K~19 72 [19] Finally, we estimate a rough optical upper limit by extrapolating our H band upper limit to the R band, assuming a typical unreddened afterglow spectrum with a slope of -0.8, obtaining R > 23.1. Extinction intrinsic to the burster host galaxy is not included, which can substantially increase this R band limit. References: 1. Piro, L. et al. 2000, GCN No. 879 2. Amati, L. et al. 2000, IAU Circ. 7519 3. http://www.jach.hawaii.edu/JACpublic/UKIRT/astronomy/calib/fs_newJHK.html 4. Taylor, G.B. et al. 2000, GCN No. 880 5. Stanek, K.Z. et al. 2000, GCN No. 881 6. Tanvir, N. et al. 1997, IAU Circ. 6796 7. Mannucci, F. et al. 1998, GCN No. 46 8. Vreeswijk, P. et al. 1999, ApJ, 523, 171 9. Bloom, J.S. et al. 1999, GCN No. 240 10. Rol, E. et al. 2001, in prep. 11. Masetti, N. et al. 2000, A&A, 354, 473 12. Garnavich, P. et al. 2000, ApJ, 543, 61 13. Rol, E. et al. 2001, in prep. 14. Rhoads, J. et al. 2000, GCN No. 564 15. Klose, S. et al. 2000, GCN No. 572 16. Stecklum, B. et al. 2000, GCN No. 654 17. Antonelli, A. et al. 2000, GCN No. 708 18. Palazzi, E. et al. 2000, GCN No. 727 19. Kobayashi, N. et al. 2000, GCN No. 821 //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 887 SUBJECT: Optical/NIR observations of GRB001109 DATE: 00/11/18 16:12:48 GMT FROM: Jochen Greiner at Astrophys.Inst. Potsdam,Germany J. Greiner (AIP, Potsdam), B. Stecklum, S. Klose (both TLS, Tautenburg), A.J. Castro-Tirado (LAEFF-INTA, Madrid and IAA-CSIC, Granada), F.J. Vrba, A.A. Henden (both US Naval Observatory, Flagstaff), M. Feldt (MPIA, Heidelberg), L. Montoya, A. Aguire (both Calar Alto), J. Fliri (LMU, Muenchen), J.M. Castro Ceron (ROA, San Fernando), report: Starting at about 9 hrs after the occurence of GRB 001109 we have observed its 50 arcsec radius error box (GCN #879, #885, IAUC 7519) in the B, R, I and H band with the Calar Alto (CA), and Naval Observatory Flagstaff Station (NOFS) telescopes as detailed below: -------------------------------------------------------------------- Date (UT) Telescope filter exposure seeing limiting (Start) (sec) (arcsec) mag. -------------------------------------------------------------------- Nov. 09.7712 CAHA 1.23 R 7 * 500 1.0 20.9 Nov. 09.7846 CAHA 1.23 B 3 * 600 1.0 19.8 Nov. 10.0980 NOFS 1.0 I 1800 1.9 21.0 Nov. 10.7623 CAHA 1.23 R 9 * 500 1.0 20.9 Nov. 10.8379 CAHA 3.5 H 10 * 300 1.5 20.5 Nov. 13.0664 NOFS 1.0 I 1800 2.6 21.0 -------------------------------------------------------------------- Photometric calibration of the images was done based on USNO magnitudes in the B and R band, and with selected area SA 113 for the I band. A comparison of the two epochs of (summed) R-band and I-band images, respectively, reveals no fading object in the GRB error box down to the limiting magnitudes as given in the table. The summed B band image does not contain any source which is not visible on the blue DSS-2. The H band image, when compared to the H band images of Vreeswijk et al. (GCN #886) also shows no fading object in the GRB error box. The optical source coincident with the radio source mentioned in GCN #880 is detected at R=20.70+/-0.15 (Nov. 9), I=20.07+/-0.1 and R=20.63+/-0.15 (Nov. 10) and I=20.13+/-0.1 (Nov. 13). The constancy of this source as well as the extended shape (GCN #886) make it possible that it could be the host galaxy of GRB 001109. If true, (i) this burst could be similar to GRB 981226 with a radio, but no optical/IR counterpart, and (ii) it would be the brightest host galaxy of any GRB. If, in addition, the GRB occured within that galaxy without substantial offset, the optical afterglow would not have to be particularly faint to be hidden by the light of the galaxy. Under these assumptions, we estimate that we can place a limit of only R > 21.5 mag at 9 hrs and I > 22 mag at 17 hrs after the GRB. We finally note that we don't see very many obvious galaxies in these images. Perhaps there is higher extinction than would normally be expected at this high galactic latitude (bII=+24.96). //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 889 SUBJECT: WSRT 4.8 GHz observations of GRB001109 DATE: 00/11/21 22:59:23 GMT FROM: Paul Vreeswijk at U of Amsterdam E. Rol, P. Vreeswijk (U. of Amsterdam), R. Strom (U. of Amsterdam, ASTRON), E. Richards (Hubble fellow at UAH), R. Wijers (SUNY), L. Kaper (U. of Amsterdam) C. Kouveliotou (MSFC/USRA) report on behalf of a larger collaboration: We observed the WFC error circle of GRB001109 (Gandolfi, GCNs #878, #879) with the Westerbork Synthesis Radio Telescope at 4.8 GHz, on Nov. 11.6, 13.7 and 19.7 UT. The flux density detection limits for these three epochs are 0.043 mJy, 0.048 mJy and 0.059 mJy, respectively. Within the NFI error circle (Amati et al., IAUC #7519), we do not detect any sources down to a 4 sigma limit for the first two epochs, and 5 sigma for the last epoch. Assuming a low value for the spectral slope of an extra-galactic radio source of -0.5, the reported VLA 8.4 GHz flux density of 0.24(3) mJy (Taylor et al., GCN #880), implies a 4.8 GHz flux of about 0.32 mJy on Nov. 9.8 UT. Then this source has decreased by at least a factor of about two in flux density (from 0.32 mJy to below our 4 sigma limit of 0.17 mJy on Nov. 11.6) between 0.4 days and 2.2 days after the burst. If the radio source is an extragalactic object of constant flux, then our measurement requires its spectral index to be +0.6 or steeper, which is well outside the usual range -1 to -0.5 for extragalactic sources. Therefore, it is more likely that the source has actually faded, making this source the probable counterpart of GRB001109. The radio behavior is then reminiscent of the short radio flare counterparts, like those of GRB970828 and GRB990123. Assuming a radio spectral index during the fading phase of -0.8, the temporal decay has to be faster than t**-0.5. This is consistent both with a reverse-shock and forward-shock origin of the radio emission. Further radio measurements are required to exclude or confirm that the radio source is a variable extragalactic object of some kind. We thank the WSRT staff for their assistance. //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 891 SUBJECT: GRB001109, optical observations DATE: 00/11/23 00:23:50 GMT FROM: Valery Petkov at Terskol Observatory V.Petkov, on behalf of the peak Terskol Observatory GRB followup team. We acquired on Nov 9.796 UT one R-band (300s exposure) image and one I-band (600s exposure) image of the GRB001109 error box (GCN #885) using the CCD camera of the 2m peak Terskol Observatory telescope. Photometric calibration of the images was done based on USNO-A2.0 magnitudes in the R-band and with selected areas SA 113 and SA 92 for the I band. A comparison with Nov 15.653 (1200s exposure) images reveals no fading object in the GRB error box down to R=19.6 and I=19.8. //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 1090 SUBJECT: GRB001109, Host Galaxy Spectroscopic Observations DATE: 01/09/08 07:28:47 GMT FROM: Vladimir Sokolov at SAO RAS V. Afanasiev, T. Fatkhullin, S. Dodonov, V. Sokolov, (SAO RAS), A. Castro-Tirado (IAA-CSIC Granada; LAEFF-INTA, Madrid), V. Komarova, A. Moiseev (SAO RAS), A. Cherepashchuk, K. Postnov (SAI-MSU Moscow) report: "On July 24, 2001 UT, we observed the field of GRB 001109 (Gandolfi, GCNs #878, #879). The photometric conditions were good with a seeing of about 1.3 arcsec. We have obtained three 180-s R-band images with the SCORPIO instrument (http://www.sao.ru/~moisav/scorpio/scorpio.html) at the 6-m telescope of SAO RAS. At the position of the VLA radiosource (Taylor et al. GCN #880) which is presumably a radio afteglow (Rol et al. GCN #889) we detected an extended object as already reported by Vreeswijk et al. (GCN #886) and Greiner et al. (GCN#887), most likely double. Spectroscopic observations (12 x 600-s exposures) were obtained with the 300 lines/mm grating giving a spectral resolution (FWHM) of about 20 A and an effective wavelength coverage of 3500 - 9500 A. The slit was placed along the extended object. The analysis revealed that the object is double with a spectra showing the continua with clearly detected Balmer break. The redshift for each component is: Object A: z = 0.398 +/- 0.002, based on identification of the Halfa 6563A, O[III] 4959,5007AA emission lines (brighter component) Object B: z = 0.3399 +/- 0.0005, based on identification of the Halfa 6563A, Hbeta 4861AA, emission lines (fainter component) If the radio transient is related to GRB 001109 indeed, then this is the nearest host galaxy detected so far. The R-band image can be seen at: http://www.sao.ru/~sokolov/GRB/HOSTS/GRB001109/GRB001109.html This message may be cited". -Vladimir Sokolov, on behalf of the RAS Special Astrophysical Observatory GRB followup team. //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 1092 SUBJECT: GRB001109, Host Galaxy Astrometry DATE: 01/09/11 08:19:24 GMT FROM: Vladimir Sokolov at SAO RAS V. Sokolov, T. Fatkhullin, V. Komarova (SAO RAS) report: "Using the images obtained on July 24, 2001 (GCN #1090), we performed the astrometry to reveal where the VLA radiosource (Taylor et al. GCN #880; RA = 18h30m06.51s, DEC = 55d18'35.7", equinox J2000) has been placed. We used 10 USNO stars not saturated on the images and the astrometrical uncertainty is found to be about 0.5 arcsec, including statistic and systematic errors. The astrometry showed that radiosource is placed on the West outskirt of the brighter component A (GCN #1090). If the VLA radiosource is indeed located in this galaxy and related to GRB 001109 than the redshift of the GRB event is 0.398 +/- 0.002 (see GCN #1090). The image can be seen at http://www.sao.ru/~sokolov/GRB/HOSTS/GRB001109/GRB001109.html This message can be cited". //////////////////////////////////////////////////////////////////////// TITLE: GCN GRB OBSERVATION REPORT NUMBER: 1168 SUBJECT: GRB001109, Radio Monitoring DATE: 01/11/30 22:36:42 GMT FROM: Edo Berger at Caltech E. Berger (Caltech) and D. A. Frail (NRAO) report on behalf of a larger collaboration: "We have continued to monitor the radio source detected by Taylor et al. (VLA J1830+5518; GCN #880) inside the BeppoSAX error box of GRB001109 (GCN #878) at 1.43, 4.86, and 8.46 GHz with the VLA. This source had previously been claimed to be the afterglow of GRB001109 by Rol et al. (GCN #889). Although the mean flux density of the source at 8.46 GHz varies by 10-20%, there has been no secular decrease in the flux density over a period of 390 days. A similar behavior is observed at 1.43 and 4.86 GHz. Moreover, the flux density at 1.43 GHz is consistently brighter than at 8.46 GHz, with a spectral slope typical of extragalactic radio sources. We conclude that this source is not the afterglow of GRB001109, and therefore the optical galaxy at z=0.398 associated with it (Vreeswijk et al. GCN #886; Greiner et al. GCN #887; Afanasiev et al. GCN #1090; Sokolov et al. GCN #1092) is not a GRB host galaxy." This message may be cited.