Clustering of galaxies around gamma-ray burst sight-lines

Sudilovsky, V.; Greiner, J.; Rau, A. R. P.; Salvato, M.; Savaglio, S.; Vergani, S. D.; Schady, P.; Elliott, J.; Krühler, T.; Канн, Д. А.; Klose, S.; Rossi, A.; Filgas, R.; Schmidl, S.

doi:10.1051/0004-6361/201321247

Cited by 11 publications

(12 citation statements)

References 59 publications

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“…In conclusion we would like also to emphasize here that since GRBs are detected at more and more distant cosmological distances with redshifts up to 9.2 [13], this poses additional new questions which are of outmost importance for observational cosmology. What are the redshifts at which the sky distribution of GRBs becomes homogeneous?…”

Section: Discussionmentioning

confidence: 80%

“…Hereby, all these BTA observations were carried out in the course of the search and study of GRB host galaxies and comparison of their properties with those of all observable galaxies in GRB deep fields. Papers [15,16] describe the methodology of processing and interpretation of these observations, which can be used now in new tasks on the study of distribution of galaxy clusters in GRB directions [13,[17][18][19]. In particular, to study the GRB 021004 field we used the methodology already developed for the BV RI deep field of GRB 000926 (see Table 1), which was investigated with BTA and the results were published [15].…”

Section: Discussionmentioning

confidence: 99%

“…So, GRB afterglow spectroscopy also can reveal intervening systems along the line of sight. The clustering of galaxies and the clustering around GRB sight-lines are detected and studied in the same manner employed with quasar spectroscopy in many papers already (see [13] and references therein) because GRBs originate at cosmological distances with energy releases of 10 51 -10 53 erg at a range of redshifts between about 0.01 and more than 9.2. And long-duration GRBs are beacons of starforming galaxies (see references in [14]) up to very high redshifts.…”

Section: Introductionmentioning

confidence: 99%

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The Excess Density of Field Galaxies near z=0.56 around the Gamma-Ray Burst GRB021004 Position

Sokolov,

Castro-Tirado,

Zhelenkova

et al. 2018

Preprint

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We test for reliability any signatures of field galaxies clustering in the GRB 021004 line of sight. The first signature is the GRB 021004 field photometric redshifts distribution based on the 6-m telescope of the Special Astrophysical Observatory of the Russian Academy of Sciences observations with a peak near z ∼ 0.56 estimated from multicolor photometry in the GRB direction. The second signature is the Mg IIλλ2796, 2803 ÅÅ absorption doublet at z ≈ 0.56 in VLT/UVES spectra obtained for the GRB 021004 afterglow. The third signature is the galaxy clustering in a larger (of about 3 • × 3 • ) area around GRB 021004 with an effective peak near z ∼ 0.56 for both the spectral and photometric redshifts from a few catalogs of clusters based on the Sloan Digital Sky Survey (SDSS) and Baryon Oscillation Spectroscopic Survey (BOSS) as a part of SDSS-III. From catalog data the size of the whole inhomogeneity in distribution of the galaxy clusters with the peak near z ≈ 0.56 is also estimated as about 6 • -8 • or 140-190 Mpc. A possibility of inhomogeneity (a galaxy cluster) near the GRB 021004 direction can be also confirmed by an inhomogeneity in the cosmic microwave background related with the Sunyaev-Zeldovich effect.

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Section: Discussionmentioning

confidence: 80%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The Excess Density of Field Galaxies near z=0.56 around the Gamma-Ray Burst GRB021004 Position

Sokolov,

Castro-Tirado,

Zhelenkova

et al. 2018

Preprint

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“…Since the redshift is a major parameter in determining the quantitative spectrum especially in a narrow energy range less than two orders of magnitude, we now only interpret the time-resolved spectra of the bursts with known redshifts. This leads to seven bursts in Sudilovsky et al 2013). However, GRBs 080207 is not considered in our spectral fitting.…”

Section: Modeling Time-resolved Spectramentioning

confidence: 98%

On the Late-Time Spectral Softening Found in X-Ray Afterglows of Gamma-Ray Bursts

Wang

Zhao

Shao

et al. 2016

ApJ

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Strong spectral softening has been revealed in the late X-ray afterglows of some gamma-ray bursts (GRBs). The scenario of X-ray scattering around the circumburst dusty medium has been supported by previous works due to its overall successful prediction of both the temporal and spectral evolution of some X-ray afterglows. To further investigate the observed feature of spectral softening we now systematically search the X-ray afterglows detected by the X-ray telescope aboard Swift and collect 12 GRBs with significant late-time spectral softening. We find that dust scattering could be the dominant radiative mechanism for these X-ray afterglows regarding their temporal and spectral features. For some well-observed bursts with high-quality data, the time-resolved spectra could be wellproduced within the scattering scenario by taking into account the X-ray absorption from the circumburst medium. We also find that during spectral softening the power-law index in the high-energy end of the spectra does not vary much. The spectral softening is mainly manifested by the spectral peak energy continually moving to the soft end.

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“…The source was still detected by BAT two hours after the trigger. The redshift of the burst was z = 0.347 (Vreeswijk et al 2013;Sudilovsky et al 2013).…”

Section: Observations and Data Analysismentioning

confidence: 99%

Time Evolution of Flares in GRB 130925a: Jet Precession in a Black Hole Accretion System

Hou

Liu

et al. 2014

ApJ

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GRB 130925A, composed of three gamma-ray emission episodes and a series of orderly flares, has been detected by Swif t, Fermi, Konus-W ind, and INTE-GRAL. If the third weakest gamma-ray episode can be considered as a giant flare, we find that after the second gamma-ray episode observed by INTEGRAL located at about 2000 s, there exists a positive relation between the time intervals of the adjacent flares and the time since the episode. We suggest that the second gamma-ray episode and its flares originate from the resumption of the accretion process due to the fragments from the collapsar falling back, such a relation may be related to a hyperaccretion disk around a precessed black hole (BH). We propose that the origin and time evolution of the flares, and the approximately symmetrical temporal structure and spectral evolution of the single flare, can be explained well by the jet precession model (Liu et al. 2010). In addition, the mass and spin of the BH can be constrained, which indicates a stellar-mass, fast rotating BH located in the center of GRB 130925A.

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Clustering of galaxies around gamma-ray burst sight-lines

Cited by 11 publications

References 59 publications

The Excess Density of Field Galaxies near z=0.56 around the Gamma-Ray Burst GRB021004 Position

The Excess Density of Field Galaxies near z=0.56 around the Gamma-Ray Burst GRB021004 Position

On the Late-Time Spectral Softening Found in X-Ray Afterglows of Gamma-Ray Bursts

Time Evolution of Flares in GRB 130925a: Jet Precession in a Black Hole Accretion System

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