A gamma-ray burst at a redshift of z approximately 8.2

Authors :: N R, Tanvir
D B, Fox
A J, Levan
E, Berger
K, Wiersema
J P U, Fynbo
A, Cucchiara
T, Krühler
N, Gehrels
J S, Bloom
J, Greiner
P A, Evans
E, Rol
F, Olivares
J, Hjorth
P, Jakobsson
J, Farihi
R, Willingale
R L C, Starling
S B, Cenko
D, Perley
J R, Maund
J, Duke
R A M J, Wijers
A J, Adamson
A, Allan
M N, Bremer
D N, Burrows
A J, Castro-Tirado
B, Cavanagh
A, de Ugarte Postigo
M A, Dopita
T A, Fatkhullin
A S, Fruchter
R J, Foley
J, Gorosabel
J, Kennea
T, Kerr
S, Klose
H A, Krimm
V N, Komarova
S R, Kulkarni
A S, Moskvitin
C G, Mundell
T, Naylor
K, Page
B E, Penprase
M, Perri
P, Podsiadlowski
K, Roth
R E, Rutledge
T, Sakamoto
P, Schady
B P, Schmidt
A M, Soderberg
J, Sollerman
A W, Stephens
G, Stratta
T N, Ukwatta
D, Watson
E, Westra
T, Wold
C, Wolf
Source :: Nature. 461(7268)
Publication Year :: 2009
Abstract: Long-duration gamma-ray bursts (GRBs) are thought to result from the explosions of certain massive stars, and some are bright enough that they should be observable out to redshifts of z > 20 using current technology. Hitherto, the highest redshift measured for any object was z = 6.96, for a Lyman-alpha emitting galaxy. Here we report that GRB 090423 lies at a redshift of z approximately 8.2, implying that massive stars were being produced and dying as GRBs approximately 630 Myr after the Big Bang. The burst also pinpoints the location of its host galaxy.

Subjects :: Astrophysics::High Energy Astrophysical Phenomena
Astrophysics::Solar and Stellar Astrophysics
Astrophysics::Earth and Planetary Astrophysics
Astrophysics::Cosmology and Extragalactic Astrophysics
Astrophysics::Galaxy Astrophysics

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