Showing papers by "A. J. Castro-Tirado published in 1997"
TL;DR: In this article, the authors studied the optical transient of the gamma-ray burst of May 8, 1997 (GRB 970508) at the 2.5m Nordic Optical Telescope (NOT) and 2.2m telescope at the German-Spanish Calar Alto observatory (CAHA) covering the time interval starting 3 hours 5 minutes to 96 days after the high energy event.
Abstract: Optical Transients from gamma-ray burst sources, in addition to offering a distance determination, convey important information on the physics of the emission mechanism, and perhaps also about the underlying energy source. As the gamma-ray phenomenon is extremely diverse, with time scales spanning several orders of magnitude, some diversity in optical counterpart signatures appears plausible. We have studied the Optical Transient, which accompanied the gamma-ray burst of May 8, 1997 (GRB 970508). Observations conducted at the 2.5-m Nordic Optical Telescope (NOT) and the 2.2-m telescope at the German-Spanish Calar Alto observatory (CAHA) cover the time interval starting 3 hours 5 minutes to 96 days after the high energy event. This brackets all other published observations, including radio. When analyzed in conjunction with optical data from other observatories, evidence emerges for a composite light curve. The first interval, from 3 to 8 hours after the event was characterized by a constant, or slowly declining brightness. At a later moment the brightness started increasing rapidly, and reached a maximum approximately 40 hours after the GRB. From that moment the GRB brightness decayed approximately as a power-law of index -1.21. The last observation, after 96 days, m_R = 24.28+-0.10, is brighter than the extrapolated power-law, and hints that a constant component, m_R = 25.50+-0.40 is present. The OT is unresolved (FWHM 0.83") at the faintest magnitude level. The brightness of the optical transient, its duration and the general shape of the light curve sets this source apart from the single other optical transient known, that of the February 28, 1997 event.
70 citations
TL;DR: In this article, high-energy spectral data of the prompt emission of GRB970228 and its X-ray afterglow were reported, and it was shown that the nature of the X-rays afterglows emission is non-thermal and similar to the later portion of GRb970228.
Abstract: We report high-energy spectral data of the prompt emission of GRB970228 and its X-ray afterglow. We establish that the nature of the X-ray afterglow emission is non-thermal and similar to the later portion of GRB970228. Our data can be used to discriminate different emission models of GRB afterglows. While cooling of excited compact objects can be ruled out, fireball models are constrained in the physics of the radiation emission processes and their evolution.
58 citations
TL;DR: In this paper, the optical transient (OT) discovered in the error box of the gamma-ray burst GRB970508 was detected with a point-like source with R = 23.1 +-0.2 and H = 20.6 +- 0.3.
Abstract: We report on Hubble Space Telescope (HST) observations of the optical transient (OT) discovered in the error box of the gamma-ray burst GRB970508. The object was imaged on 1997 June 2 with the Space Telescope Imaging Spectrograph (STIS) and Near-Infrared Camera and Multi-Object Spectrometer (NICMOS). The observations reveal a point-like source with R = 23.1 +- 0.2 and H = 20.6 +- 0.3, in agreement with the power-law temporal decay seen in ground-based monitoring. Unlike the case of GRB970228, no nebulosity is detected surrounding the OT of GRB970508. We set very conservative upper limits of R ~ 24.5 and H ~ 22.2 on the brightness of any underlying extended source. If this subtends a substantial fraction of an arcsecond, then the R band limit is ~25.5. In combination with Keck spectra that show Mg I absorption and [O II] emission at a redshift of z = 0.835, our observations suggest that the OT is located in a star-forming galaxy with total luminosity one order of magnitude lower than the knee of the galaxy luminosity function, L*. Such galaxies are now thought to harbor the majority of star formation at z ~ 1; therefore, these observations may provide support for a link between GRBs and star formation.
48 citations
TL;DR: In this paper, the authors studied the possible correlation of a selected sample of 87 gamma-ray bursts that can be localized to ≤6 deg2 with 3616 Abell clusters of galaxies.
Abstract: We study the possible correlation of a selected sample of 87 gamma-ray bursts that can be localized to ≤6 deg2 with 3616 Abell clusters of galaxies (with |b| > 30°) for which we have determined angular sizes. The intention is to confirm whether the bursts are related to Abell clusters of galaxies, as has been claimed by researchers who found a 95% confidence level correlation between Abell clusters and a subsample of 136 events from the BATSE 3B catalog. We find no correlation between the positions of gamma-ray bursts and those of Abell clusters. In fact, the number of observed events toward Abell clusters is even smaller than that expected to occur at random.
9 citations
Posted Content•
TL;DR: The optical counterpart of the Gamma-Ray Burst GRB 970228, discovered by Groot et al. as mentioned in this paper, is also detected in the B and R frames obtained about 4 hours earlier at the Bologna Observatory.
Abstract: The optical counterpart of the Gamma-Ray Burst GRB 970228, discovered by Groot et al. (IAU Circ. 6584), is also detected in the B and R frames obtained about 4 hours earlier at the Bologna Observatory. Our observations indicate a very likely rise of the optical emission within these 4 hours. The R luminosity of the transient at maximum was about 15 times that of an underlying extended object. Follow-up data show that the maximum optical emission was delayed of not less than 0.7 days with respect to the gamma-ray peak and that no new big flares were seen after the main one. The optical transient became significantly redder once it has reverted to quiescence.
3 citations
TL;DR: In this article, the authors report on the observations of the optical transient discovered in the error box of GRB970508, which reveals a point-like source with R = 23.1 +-0.2 and H = 20.6 +- 0.3, in agreement with the power-law temporal decay seen in previous ground-based monitoring.
Abstract: We report on Hubble Space Telescope observations of the optical transient discovered in the error box of GRB970508. The object was imaged on 1997 June 2 with the Space Telescope Imaging Spectrograph and Near-Infrared Camera and Multi-Object Spectrometer. The observations reveal a point-like source with R = 23.1 +- 0.2 and H = 20.6 +- 0.3, in agreement with the power-law temporal decay seen in previous ground-based monitoring. Unlike the case of GRB970228, no nebulosity is detected surrounding the OT of GRB970508, although Mg I absorption and [O II] emission seen in Keck spectra at a redshift of z = 0.835 suggest the presence of a dense, star-forming medium. The HST observations set very conservative upper limits of R ~24.5 and H ~22.2 on the brightness of any underlying extended source. If this subtends a substantial fraction of an arcsecond, then the R band limit is ~25.5. Subsequent photometry suggests a flattening of the light curve at later epochs. Assuming the OT decline follows a pure power-law and ascribing the flattening to the presence of an underlying component of constant flux, we find that this must have R = 25.4, consistent with the upper limits determined by HST. At z = 0.8, this would correspond to an absolute magnitude in the U band of ~-18, similar to that of the Large Magellanic Cloud. We propose a scenario in which the host galaxy of the GRB is of Magellanic type, possibly being a ``satellite'' of one of the bright galaxies located at few arcseconds from the optical transient.
2 citations
Journal Article•
TL;DR: In this paper, the mass transfer instability model was proposed as possible explanation of the event on the basis of the observational facts presented in this paper, and two spectra were also taken with the 2.2m telescope on 14 August.
Abstract: One year after the X-ray outburst, the optical counterpart of the black hole candidate GRO JO322+32 underwent an unexpected one-month outburst beginning on 10 August 1993. CCD photometry was obtained for the optical counterpart with the 1.5-m telescope at Calar Alto on 6 consecutive nigths since the onset of this event, never seen before in other transients belonging to the black-hole class. Two spectra were also taken with the 2.2-m telescope on 14 August. We suggest the Mass Transfer Instability model as possible explanation of the event on the basis of the observational facts presented here.
1 citations
Journal Article•
TL;DR: The optical counterpart of the Gamma-Ray Burst GRB 970228, discovered by Groot et al. as discussed by the authors, is also detected in the B and R frames obtained about 4 hours earlier at the Bologna Observatory.
Abstract: The optical counterpart of the Gamma-Ray Burst GRB 970228, discovered by Groot et al. (IAU Circ. 6584), is also detected in the B and R frames obtained about 4 hours earlier at the Bologna Observatory. Our observations indicate a very likely rise of the optical emission within these 4 hours. The R luminosity of the transient at maximum was about 15 times that of an underlying extended object. Follow-up data show that the maximum optical emission was delayed of not less than 0.7 days with respect to the gamma-ray peak and that no new big flares were seen after the main one. The optical transient became significantly redder once it has reverted to quiescence.
1 citations