The low-extinction afterglow in the solar-metallicity host galaxy of γ-ray burst 110918A

Galaxies selected through long γ-ray bursts (GRBs) could be of fundamental importance when mapping the star formation history out to the highest redshifts. Before using them as efficient tools in the early Universe, however, the environmental factors that govern the formation of GRBs need to be unde...

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Published inAstronomy and astrophysics (Berlin) Vol. 556; pp. A23 - 12
Main Authors Elliott, J., Krühler, T., Greiner, J., Savaglio, S., Olivares, F., Rau, E. A., de Ugarte Postigo, A., Sánchez-Ramírez, R., Wiersema, K., Schady, P., Kann, D. A., Filgas, R., Nardini, M., Berger, E., Fox, D., Gorosabel, J., Klose, S., Levan, A., Nicuesa Guelbenzu, A., Rossi, A., Schmidl, S., Sudilovsky, V., Tanvir, N. R., Thöne, C. C.
Format Journal Article
LanguageEnglish
Published EDP Sciences 01.08.2013
Subjects
Afterglows
Astronomy
Bursting
Explosions
galaxies: abundances
galaxies: photometry
galaxies: star formation
gamma-ray burst: general
gamma-ray burst: individual: 110918A
ISM: general
Metallicity
Red shift
Star formation
Universe
Online AccessGet full text
ISSN0004-6361
1432-0746
1432-0746
DOI10.1051/0004-6361/201220968

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Abstract Galaxies selected through long γ-ray bursts (GRBs) could be of fundamental importance when mapping the star formation history out to the highest redshifts. Before using them as efficient tools in the early Universe, however, the environmental factors that govern the formation of GRBs need to be understood. Metallicity is theoretically thought to be a fundamental driver in GRB explosions and energetics, but it is still, even after more than a decade of extensive studies, not fully understood. This is largely related to two phenomena: a dust-extinction bias, which prevented high-mass and thus likely high-metallicity GRB hosts from being detected in the first place, and a lack of efficient instrumentation, which limited spectroscopic studies, including metallicity measurements, to the low-redshift end of the GRB host population. The subject of this work is the very energetic GRB 110918A (Eγ,iso = 1.9 × 1054   erg), for which we measure a redshift of z = 0.984. GRB 110918A gave rise to a luminous afterglow with an intrinsic spectral slope of β = 0.70, which probed a sight-line with little extinction (AGRBV = 0.16 mag) and soft X-ray absorption (NH,X = (1.6 ± 0.5) × 1021  cm-2) typical of the established distributions of afterglow properties. However, photometric and spectroscopic follow-up observations of the galaxy hosting GRB 110918A, including optical/near-infrared photometry with the Gamma-Ray burst Optical Near-infrared Detector and spectroscopy with the Very Large Telescope/X-shooter, reveal an all but average GRB host in comparison to the z ~ 1 galaxies selected through similar afterglows to date. It has a large spatial extent with a half-light radius of R1/2 ~ 10 kpc, the highest stellar mass for z < 1.9 (log   (M∗/M⊙) = 10.68 ± 0.16), and an Hα-based star formation rate of SFRHα = 41+28-16M⊙   yr-1. We measure a gas-phase extinction of AgasV ~ 1.8 mag through the Balmer decrement and one of the largest host-integrated metallicities ever of around solar using the well-constrained ratios of [N ii]/Hα and [N ii]/[O ii] (12 + log   (O/H) = 8.93 ± 0.13 and 8.85+0.14-0.18, respectively). This presents one of the very few robust metallicity measurements of GRB hosts at z ~ 1, and establishes thatGRB hosts at z ~ 1 can also be very metal rich. It conclusively rules out a metallicity cut-off in GRB host galaxies and argues against an anti-correlation between metallicity and energy release in GRBs.
AbstractList Galaxies selected through long gamma -ray bursts (GRBs) could be of fundamental importance when mapping the star formation history out to the highest redshifts. Before using them as efficient tools in the early Universe, however, the environmental factors that govern the formation of GRBs need to be understood. Metallicity is theoretically thought to be a fundamental driver in GRB explosions and energetics, but it is still, even after more than a decade of extensive studies, not fully understood. The subject of this work is the very energetic GRB 110918A, for which we measure a redshift of [zeta] = 0.984. This presents one of the very few robust metallicity measurements of GRB hosts at [zeta] [similar] 1, and establishes that GRB hosts at [zeta] [similar] 1 can also be very metal rich. It conclusively rules out a metallicity cut-off in GRB host galaxies and argues against an anti-correlation between metallicity and energy release in GRBs.
Galaxies selected through long γ-ray bursts (GRBs) could be of fundamental importance when mapping the star formation history out to the highest redshifts. Before using them as efficient tools in the early Universe, however, the environmental factors that govern the formation of GRBs need to be understood. Metallicity is theoretically thought to be a fundamental driver in GRB explosions and energetics, but it is still, even after more than a decade of extensive studies, not fully understood. This is largely related to two phenomena: a dust-extinction bias, which prevented high-mass and thus likely high-metallicity GRB hosts from being detected in the first place, and a lack of efficient instrumentation, which limited spectroscopic studies, including metallicity measurements, to the low-redshift end of the GRB host population. The subject of this work is the very energetic GRB 110918A (Eγ,iso = 1.9 × 1054   erg), for which we measure a redshift of z = 0.984. GRB 110918A gave rise to a luminous afterglow with an intrinsic spectral slope of β = 0.70, which probed a sight-line with little extinction (AGRBV = 0.16 mag) and soft X-ray absorption (NH,X = (1.6 ± 0.5) × 1021  cm-2) typical of the established distributions of afterglow properties. However, photometric and spectroscopic follow-up observations of the galaxy hosting GRB 110918A, including optical/near-infrared photometry with the Gamma-Ray burst Optical Near-infrared Detector and spectroscopy with the Very Large Telescope/X-shooter, reveal an all but average GRB host in comparison to the z ~ 1 galaxies selected through similar afterglows to date. It has a large spatial extent with a half-light radius of R1/2 ~ 10 kpc, the highest stellar mass for z < 1.9 (log   (M∗/M⊙) = 10.68 ± 0.16), and an Hα-based star formation rate of SFRHα = 41+28-16M⊙   yr-1. We measure a gas-phase extinction of AgasV ~ 1.8 mag through the Balmer decrement and one of the largest host-integrated metallicities ever of around solar using the well-constrained ratios of [N ii]/Hα and [N ii]/[O ii] (12 + log   (O/H) = 8.93 ± 0.13 and 8.85+0.14-0.18, respectively). This presents one of the very few robust metallicity measurements of GRB hosts at z ~ 1, and establishes thatGRB hosts at z ~ 1 can also be very metal rich. It conclusively rules out a metallicity cut-off in GRB host galaxies and argues against an anti-correlation between metallicity and energy release in GRBs.
Author Fox, D.
de Ugarte Postigo, A.
Nardini, M.
Levan, A.
Nicuesa Guelbenzu, A.
Thöne, C. C.
Rau, E. A.
Kann, D. A.
Berger, E.
Sudilovsky, V.
Schady, P.
Klose, S.
Sánchez-Ramírez, R.
Gorosabel, J.
Savaglio, S.
Elliott, J.
Krühler, T.
Filgas, R.
Olivares, F.
Schmidl, S.
Tanvir, N. R.
Rossi, A.
Greiner, J.
Wiersema, K.
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publisher-ID:aa20968-12
Based on observations made with telescopes at the European Southern Observatory at La Silla/Paranal, Chile under program 090.A-0760(A).
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Publisher EDP Sciences
Publisher_xml – name: EDP Sciences
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SSID ssj0002183
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Snippet Galaxies selected through long γ-ray bursts (GRBs) could be of fundamental importance when mapping the star formation history out to the highest redshifts....
Galaxies selected through long gamma -ray bursts (GRBs) could be of fundamental importance when mapping the star formation history out to the highest...
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SubjectTerms Afterglows
Astronomy
Bursting
Explosions
galaxies: abundances
galaxies: photometry
galaxies: star formation
gamma-ray burst: general
gamma-ray burst: individual: 110918A
ISM: general
Metallicity
Red shift
Star formation
Universe
Title The low-extinction afterglow in the solar-metallicity host galaxy of γ-ray burst 110918A
URI https://api.istex.fr/ark:/67375/80W-06Z0M8BQ-V/fulltext.pdf
https://www.proquest.com/docview/1560138761
https://www.proquest.com/docview/1671597652
https://www.aanda.org/articles/aa/pdf/2013/08/aa20968-12.pdf
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