Lorentz Invariance Violation Limits from GRB 221009A

Abstract

It has been long conjectured that a signature of Quantum Gravity will be Lorentz Invariance Violation (LIV) that could be observed at energies much lower than the Planck scale. One possible signature of LIV is an energy-dependent speed of photons. This can be tested with a distant transient source of very high-energy photons. We explore time-of-flight limits on LIV derived from LHAASO's observations of tens of thousands of TeV photons from GRB 221009A, the brightest gamma-ray burst of all time. For a linear (n=1) dependence of the photon velocity on energy, we find a lower limit on the subluminal (superluminal) LIV scale of 5.9 (6.2) mpl. These are comparable to the stringent limits obtained so far and, as an independent bound obtained from a different redshift, confirm their robustness. For a quadratic model (n=2, corresponding to d=6 SME operators), the limits, which are currently the best available with the time-of-flight method, are 5.8 (4.6) × 10-8 mpl. Our analysis uses the publicly available LHAASO data, which is only in the 0.2-7 TeV range. Higher energy data would enable us to improve these limits by a factor of 3 for n=1 and by an order of magnitude for n=2.