Measuring cosmological parameters with a luminosity-time correlation of gamma-ray bursts

Abstract

Gamma-ray bursts (GRBs), as a possible probe to extend the Hubble diagram to high redshifts, have attracted much attention recently. In this paper, we select two samples of GRBs that have a plateau phase in X-ray afterglow. One is short GRBs with plateau phases dominated by magnetic dipole (MD) radiations. The other is long GRBs with gravitational-wave (GW) dominated plateau phases. These GRBs can be well standardized using the correlation between the plateau luminosity L0 and the end time of plateau tb. The so-called circularity problem is mitigated by using the observational Hubble parameter data and Gaussian process method. The calibrated ~correlations are also used to constrain and w(z) = w0 models. Combining the MD-LGRBs sample from Wang et al. (2021) and the MD-SGRBs sample, we find m = 0.33-0.09+0.06 and = 1.06-0.34+0.15 excluding systematic uncertainties in the nonflat model. Adding type Ia supernovae from Pantheon sample, the best-fitting results are w0 = -1.11-0.15+0.11 and m = 0.34-0.04+0.05 in the w=w0 model. These results are in agreement with the model. Our result supports that selection of GRBs from the same physical mechanism is crucial for cosmological purposes.