The Locations of Gamma‐Ray Bursts Measured by COMPTEL

Kippen, R. M.; Ryan, J. M.; Connors, A.; Hartmann, D. H.; Winkler, Christoph; Kuiper, L.; Varendorff, M.; McConnell, Mark L.; Hurley, K.; Hermsen, W.; Schönfelder, V.

doi:10.1086/305033

Cited by 14 publications

(9 citation statements)

References 56 publications

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“…Another alternative scenario to explain an X-ray outburst is a gamma-ray burst (GRB) afterglow. Comparing the time and position of the event with detected gamma-ray bursts listed in the Gamma-Ray Bursts Catalogue (GRBCAT) results in only one match in the vicinity of the X-ray detection at the time of the outburst: GRB 930118 (Kippen et al 1998). It is the only event that occurred during a time interval from 2448997.5 to 2449018.5 JD and within a maximum distance of 30 • relative to the position of the transient.…”

Section: Gamma-ray Burstmentioning

confidence: 95%

A new X-ray tidal disruption event candidate with fast variability

Hampel,

Komossa,

Greiner

et al. 2022

Preprint

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During a close encounter between a star and a supermassive black hole, the star can get disrupted by the black hole's tidal forces, resulting in a tidal disruption event (TDE). The accretion of the star's material onto the black hole produces strong emission in different wavelength regimes. Here we report the discovery with ROSAT of an X-ray-selected transient source in an optically non-active galaxy. At the location RA: 13 h 31 m 57.66 s and Dec: −32 • 43 19.7 a sudden rise in X-ray luminosity by a factor of 8 within 8 days has been observed. Additionally, a very soft X-ray spectrum with a blackbody temperature kT =0.1 keV and a peak luminosity of at least 1 × 10 43 erg/s suggest a TDE interpretation, and the observed properties are very similar to previously identified soft X-ray (ROSAT) TDEs. An optical spectrum taken of the galaxy at the position of RXJ133157.6-324319.7 six years after the X-ray outburst does not show any emission lines as would be expected from a persistent active galactic nucleus (AGN). The redshift of the galaxy is determined to be 0.051 based on absorption lines. It is therefore likely a member of the galaxy cluster Abell 3560. The rise in X-ray luminosity happens within 8 days and thus appears to be fast for such an event. No X-ray emission was detected 170 days before and 165 days after the event, and none was detected 25 years later with the Neil Gehrels Swift Observatory. The change in X-ray luminosity is at least a factor of 40.

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Section: Gamma-ray Burstmentioning

confidence: 95%

A new X-ray tidal disruption event candidate with fast variability

Hampel,

Komossa,

Greiner

et al. 2022

Preprint

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“…All four instruments onboard (Table 1) have contributed significantly, with BATSE studying large numbers of bursts (see this section), OSSE observing low-energy gamma-ray afterglow from bursts [9], COMPTEL imaging bursts and detecting ~ 10 MeV emission [10], and EGRET detecting 100 MeV -GeV emission and afterglow (see next section).…”

Section: Observations By Cgro/batsementioning

confidence: 99%

Recent discoveries in gamma ray burst astronomy

Gehrels¹

1999

The 9th Astrophysics Conference: After the Dark Ages, When Galaxies Were Young (The Universe at 2

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Abstract. Gamma-ray bursts are among the most energetic explosions in the Universe, and yet their origin has been a mystery since they were discovered in 1973. Early instrumentation showed that the bursts have a huge variety of time profiles and are not associated with any bright or unusual steady sources at other wavelengths. The BATSE instrument on CGRO is more sensitive than any previous GRB detector and is providing a huge (> 2000) and uniform sample. From it we have learned that GRBs are isotropic on the sky and have an intensity distribution that flattens toward fainter bursts. Recently, tremendous progress has been made by measurements performed and enabled by the BeppoSAX mission. X-ray, optical and radio afterglow has been discovered for several bursts. From the accurate positions in these wavelength bands it has been possible to obtain redshifts for 3 bursts and to identify host galaxies for ,-, 10 bursts. From this we now know that most, if not all, GRBs are cosmological in origin with typical distances of ~ 2 Gpc (z ~ 1).

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“…A new era in GRB studies have been opened about 20 years ago with the launch of the Compton Gamma-Ray Observatory (CGRO) [1]. The most significant results came from the all-sky observing by the Burst and Transient Experiment (BATSE) on CGRO complemented by data from the OSSE [12], Comptel [13] and EGRET [14] experiments. The next major discovery was made by satellite BeppoSAX, which was able to produce the first quick and small error boxes of GRBs' positions in the sky [15].…”

Section: Introductionmentioning
confidence: 99%

A method for determination of gamma-ray direction in space
Akkoyun
¹

2013
Acta Astronautica
7
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5Gamma-ray bursts (GRBs) are short and most intense bursts of gamma-rays that come from 6 random direction in space. Their origin are still unknown and they originate likely from 7 cosmological distances, probably after birth of a new black hole or death of a giant star. In 8 this work, Geant simulations of a detector array whose aim is to identify gamma-ray 9 directions in space were performed and a method for this identification was developed. The

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The Locations of Gamma‐Ray Bursts Measured by COMPTEL

Cited by 14 publications

References 56 publications

A new X-ray tidal disruption event candidate with fast variability

A new X-ray tidal disruption event candidate with fast variability

Recent discoveries in gamma ray burst astronomy

A method for determination of gamma-ray direction in space

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