Testing Dark Energy Models with Gamma-Ray Bursts Calibrated from the Observational H(z) Data through a Gaussian Process

Abstract

We use a cosmology-independent method to calibrate gamma-ray burst (GRB) from the observational Hubble data (OHD) with the cosmic chronometers method. By using Gaussian Process to reconstruct OHD, we calibrate the Amati relation (E p--E iso) to construct a GRB Hubble diagram with the A118 data set, and constrain Dark Energy models in a flat space with the Markov Chain Monte Carlo numerical method. With the cosmology-independent GRBs at 1.4<z≤8.2 in the A118 data set and the Pantheon sample of type Ia supernovae (SNe Ia) at 0.01<z≤2.3, we obtained m = 0.379+0.033-0.024, h = 0.701+0.0035-0.0035, w = -1.25+0.14-0.12, wa = -0.84+0.81-0.38 for the flat Chevallier-Polarski-Linder model at the 1σ confidence level. We find no significant evidence supporting deviations from the standard model.

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