English

Discriminating between different modified dispersion relations from gamma-ray observations

High Energy Astrophysical Phenomena 2025-04-17 v2 General Relativity and Quantum Cosmology

Abstract

The fact that the standard dispersion relation for photons in vacuum could be modified because of their interaction with the quantum nature of spacetime has been proposed more than two decades ago. A quantitative model [Jacob \& Piran, JCAP 01, 031 (2008)], has been tested extensively using distant highly energetic astrophysical sources, searching for energy-dependent time delays in photon arrival times. Since no delay was firmly measured, lower limits were set on the energy scale Λ\Lambda related to these effects. In recent years, however, different but equally well-grounded expressions beyond the Jacob \& Piran model were obtained for the photon dispersion relation, leading to different expressions for the dependence of lag versus redshift. This article introduces a general parameterization of modified dispersion relations in cosmological symmetry, which directly leads to a general parameterized lag versus redshift dependence encompassing both existing and new models. This parameterization could be used in the future to compare the predicted time lags of the different models and test them against observations. To investigate this possibility, realistic data sets are simulated, mimicking different types of extragalactic sources as detected by current and future instruments. When no lag is injected in the simulated data, each lag-redshift model leads, as expected, to a different value for the limit on Λ\Lambda, and the Jacob \& Piran model gives the most stringent bound. When a lag at ΛEP\Lambda \sim E_P in the Jacob \& Piran model is injected, it is detected for all the other lag-redshift relations considered, although leading to different values. Finally, the possibility to discriminate between several lag-redshift models is investigated, emphasizing the importance of an evenly distributed sample of sources across a wide range of redshifts.

Keywords

Cite

@article{arxiv.2412.16048,
  title  = {Discriminating between different modified dispersion relations from gamma-ray observations},
  author = {S. Caroff and C. Pfeifer and J. Bolmont and T. Terzić and A. Campoy-Ordaz and D. Kerszberg and M. Martinez and U. Pensec and C. Plard and J. Strišković and S. Wong},
  journal= {arXiv preprint arXiv:2412.16048},
  year   = {2025}
}

Comments

12 pages, 4 figures

R2 v1 2026-06-28T20:44:03.436Z