Probing a Lorentz-violating parameter from orbital precession of the S2 star around the galactic centre supermassive black hole

Abstract

Testing Lorentz symmetry in strong gravitational fields provides a promising probe of extensions to general relativity. The supermassive black hole Sgr~A* and the orbit of the S-stars offer a laboratory for such tests in a regime beyond weak field limit. We analyze the S2 orbital data focusing on the Schwarzschild-like black hole within bumblebee gravity, where deviations from general relativity are encoded in a single Lorentz-violating parameter . Using a full 14-dimensional Markov Chain Monte Carlo analysis under uniform and Gaussian priors, we obtain = -8.01 × 10-5+2.77 × 10-4-2.09 × 10-4 and = 1.00 × 10-5+2.90 × 10-4-2.91 × 10-4 at 1σ confidence level, respectively. These constraints are about three orders of magnitude tighter than those from Event Horizon Telescope imaging of Sgr~A*.