Bibliographic Information: Xie, H., Nong, X., Wang, H., Zhang, B., Li, Z., & Liang, N. (2024). Constraints on Cosmological Models with Gamma-Ray Bursts in Cosmology-Independent Way. International Journal of Modern Physics D.
Research Objective: This study aims to constrain cosmological models using a cosmology-independent method by analyzing a large sample of gamma-ray bursts (GRBs) in conjunction with observational Hubble data (OHD).
Methodology: The researchers utilized a sample of 221 GRBs, including 49 from the Fermi catalog, and calibrated the Amati relation (Ep-Eiso correlation) using a Gaussian process from the Pantheon+ Type Ia supernovae sample. They constructed a GRB Hubble diagram and employed the Markov Chain Monte Carlo (MCMC) method to constrain cosmological parameters for the flat ΛCDM, wCDM, and CPL models. The study also investigated the impact of redshift evolution on the results.
Key Findings: The study found Ωm = 0.348+0.048−0.066 and h = 0.680+0.029−0.029 for the flat ΛCDM model, and Ωm = 0.318+0.067−0.059, h = 0.704+0.055−0.068, w = −1.21+0.32−0.67 for the flat wCDM model using 182 GRBs at 0.8 ≤ z ≤ 8.2 and OHD. These findings are consistent with previous studies using different GRB samples and calibration methods. The analysis of the CPL model suggests possible dark energy evolution.
Main Conclusions: The researchers conclude that their cosmology-independent method, utilizing a large GRB sample and OHD, provides robust constraints on cosmological models. The results are consistent with previous findings and highlight the potential of GRBs as valuable tools for cosmological investigations.
Significance: This research contributes to the ongoing efforts in cosmology to understand the nature of dark energy and the evolution of the Universe. The use of GRBs as cosmological probes offers a promising avenue for independent verification and refinement of cosmological models.
Limitations and Future Research: The study acknowledges the potential for unknown selection biases when combining data from different telescopes and emphasizes the need for further investigation into redshift evolution effects on GRB relations. Future research with larger, higher-redshift GRB samples from upcoming missions like SVOM, combined with advanced calibration techniques and machine learning algorithms, is anticipated to provide more precise constraints on cosmological models.
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