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Year 2020, Volume: 1 Issue: 1, 269 - 272, 11.12.2020

Abstract

References

  • Woosley, S.~E., Gamma-ray bursts from stellar mass accretion disks around black holes, APJ 405 (273) 1993.
  • Watson, D., Hjorth, J., Levan, A., et al., A Very Low Luminosity X-Ray Flash: XMM-Newton Observations of GRB~031203, APJL 605 (L101) 2004.
  • Virgili, F.~J., Liang, E.-W., and Zhang, B., Low-luminosity gamma-ray bursts as a distinct GRB population: a firmer case from multiple criteria constraints, MNRAS 392 (91) 2009.
  • Gendre, B. and Stratta, G. and Atteia, J.~L., et al., The Ultra-long Gamma-Ray Burst 111209A: The Collapse of a Blue Supergiant?, APJ 766 (30) 2013.
  • Gendre, B. and Boër, M., Decay properties of the X-ray afterglows of gamma-ray bursts, APJ 430 (465-470) 2005.
  • Gendre, B., Galli, A., and Boër, M., X-Ray Afterglow Light Curves: Toward A Standard Candle?, APJ 683 (620) 2008.
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  • D'Avanzo, P., Salvaterra, R., Sbarufatti, B., et al., A complete sample of bright Swift Gamma-ray bursts: X-ray afterglow luminosity and its correlation with the prompt emission, MNRAS 425 (506) 2012.
  • Amati, L., The E$_p,i$-E$_iso$ correlation in gamma-ray bursts: updated observational status, re-analysis and main implications, MNRAS 372 (233) 2006.
  • Savaglio, S., Glazebrook, K., Le Borgne, D., et al., The Gemini Deep Deep Survey. VII. The Redshift Evolution of the Mass-Metallicity Relation, APJ 635 (260) 2005.
  • Wang, F.~Y. and Dai, Z.~G., Long GRBs are Metallicity-biased Tracers of Star Formation: Evidence from Host Galaxies and Redshift Distribution, APJS 214 (13) 2014.
  • Modjaz, M., Kewley, L., Kirshner, R.~P., et al., Measured Metallicities at the Sites of Nearby Broad-Lined Type Ic Supernovae and Implications for the Supernovae Gamma-Ray Burst Connection, AJ 135 (1136) 2008.
  • Coward, D. M., Howell, E. J., Piran, T., et al., The Swift short gamma-ray burst rate density: implications for binary neutron star merger rates, MNRAS 425 (2668) 2006.

The Low-Luminosity Afterglow Gamma-ray Bursts

Year 2020, Volume: 1 Issue: 1, 269 - 272, 11.12.2020

Abstract

The Low Luminosity Afterglow (LLA) gamma-ray bursts (GRBs) are characterized by their very intrinsically faint X-ray afterglows. They represent 12% of the long (of duration more than 2s) GRBs (lGRBs) with measured redshift. They are on average closer than the other IGRBs and their distribution is not affected by the gas and dust from our and host galaxies, and we detect jet breaks in some cases. We explore the environments of the LLA GRBs in the light of the closure relations, both in the X-ray and in the optical bands. We have also studied the host galaxy environment. We show that the prompt properties of LLA GRBs are somewhat different from that of other lGRBs, as shown by their position in the Amati relation. We have computed the volume density of LLA GRBs. Finally, using all these information we purpose an assumption that may be applicable about the origin of GRBs.

References

  • Woosley, S.~E., Gamma-ray bursts from stellar mass accretion disks around black holes, APJ 405 (273) 1993.
  • Watson, D., Hjorth, J., Levan, A., et al., A Very Low Luminosity X-Ray Flash: XMM-Newton Observations of GRB~031203, APJL 605 (L101) 2004.
  • Virgili, F.~J., Liang, E.-W., and Zhang, B., Low-luminosity gamma-ray bursts as a distinct GRB population: a firmer case from multiple criteria constraints, MNRAS 392 (91) 2009.
  • Gendre, B. and Stratta, G. and Atteia, J.~L., et al., The Ultra-long Gamma-Ray Burst 111209A: The Collapse of a Blue Supergiant?, APJ 766 (30) 2013.
  • Gendre, B. and Boër, M., Decay properties of the X-ray afterglows of gamma-ray bursts, APJ 430 (465-470) 2005.
  • Gendre, B., Galli, A., and Boër, M., X-Ray Afterglow Light Curves: Toward A Standard Candle?, APJ 683 (620) 2008.
  • Dereli, H., Study of a Population of Gamma-ray Bursts with Low-Luminosity Afterglows, submitted to astroph - (-) 2014. [\tt arXiv:1503.04580].
  • D'Avanzo, P., Salvaterra, R., Sbarufatti, B., et al., A complete sample of bright Swift Gamma-ray bursts: X-ray afterglow luminosity and its correlation with the prompt emission, MNRAS 425 (506) 2012.
  • Amati, L., The E$_p,i$-E$_iso$ correlation in gamma-ray bursts: updated observational status, re-analysis and main implications, MNRAS 372 (233) 2006.
  • Savaglio, S., Glazebrook, K., Le Borgne, D., et al., The Gemini Deep Deep Survey. VII. The Redshift Evolution of the Mass-Metallicity Relation, APJ 635 (260) 2005.
  • Wang, F.~Y. and Dai, Z.~G., Long GRBs are Metallicity-biased Tracers of Star Formation: Evidence from Host Galaxies and Redshift Distribution, APJS 214 (13) 2014.
  • Modjaz, M., Kewley, L., Kirshner, R.~P., et al., Measured Metallicities at the Sites of Nearby Broad-Lined Type Ic Supernovae and Implications for the Supernovae Gamma-Ray Burst Connection, AJ 135 (1136) 2008.
  • Coward, D. M., Howell, E. J., Piran, T., et al., The Swift short gamma-ray burst rate density: implications for binary neutron star merger rates, MNRAS 425 (2668) 2006.
There are 13 citations in total.

Details

Primary Language English
Subjects Astronomical Sciences (Other)
Journal Section Conference Paper
Authors

Hüsne Dereli This is me

Michel Boer This is me

Bruce Gendre This is me

Lorenzo Amatı This is me

Simone Dıchıara This is me

Publication Date December 11, 2020
Submission Date September 18, 2015
Published in Issue Year 2020 Volume: 1 Issue: 1

Cite

TJAA is a publication of Turkish Astronomical Society (TAD).