Constraining ΩM and Dark Energy with Gamma-Ray Bursts

Z. G. Dai; E. W. Liang; D. Xu

doi:10.1086/424694

Constraining Ω_M and Dark Energy with Gamma-Ray Bursts

Z. G. Dai¹, E. W. Liang^1,2,3, and D. Xu¹

Published 2004 August 17 • © 2004. The American Astronomical Society. All rights reserved. Printed in U.S.A.
The Astrophysical Journal, Volume 612, Number 2 Citation Z. G. Dai et al 2004 ApJ 612 L101 DOI 10.1086/424694

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¹ Department of Astronomy, Nanjing University, 22 Hankou Lu, Nanjing, Jiangsu 210093, China

² Department of Physics, Guangxi University, Nanning 530004, China

³ National Astronomical Observatories/Yunnan Observatory, Chinese Academy of Sciences, P.O. Box 110, Kunming, Yunnan 650011, China

Dates

Received 2004 June 25
Accepted 2004 July 23
Published 2004 August 17

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Abstract

An E_{γ, jet} ∝ E relationship with a small scatter for current gamma-ray burst (GRB) data was recently reported, where E_{γ, jet} is the beaming-corrected gamma-ray energy and E is the νF_ν peak energy in the local observer frame. By considering this relationship for a sample of 12 GRBs with known redshift, peak energy, and break time of afterglow light curves, we constrain the mass density of the universe and the nature of dark energy. We find that the mass density Ω_M = 0.35 (at the 1 σ confidence level) for a flat universe with a cosmological constant, and the w parameter of an assumed static dark energy equation of state w = -0.84 (1 σ). Our results are consistent with those from Type Ia supernovae. A larger sample established by the upcoming Swift satellite is expected to provide further constraints.

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