New Constraint for Isotropic Lorentz Violation from LHC Data

David Amram; Killian Bouzoud; Nicolas Chanon; Hubert Hansen; Marcos R.; Ribeiro Jr.; and Marco Schreck

arXiv:2312.11307·hep-ph·December 19, 2023·2 cites

New Constraint for Isotropic Lorentz Violation from LHC Data

David Amram, Killian Bouzoud, Nicolas Chanon, Hubert Hansen, Marcos R., Ribeiro Jr., and Marco Schreck

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Abstract

New calculations for the kinematics of photon decay to fermions in vacuo under an isotropic violation of Lorentz invariance (LV), parameterized by the Standard-Model Extension (SME), are presented in this paper and used to interpret prompt photon production in LHC data. The measurement of inclusive prompt photon production at the LHC Run 2, with photons observed up to a transverse energy of 2.5 TeV, provides the lower bound $\tilde{κ}_{tr} > - 1.06 \times 1 0^{- 13}$ on the isotropic coefficient $\tilde{κ}_{tr}$ at 95% confidence level. This result improves over the previous bound from hadron colliders by a factor of 55. The calculations for the kinematics of photon decay have further potential use to constrain LV coefficients from the appearance of fermion pairs, for instance, top-antitop.

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TopicsNoncommutative and Quantum Gravity Theories · Particle physics theoretical and experimental studies · Graphite, nuclear technology, radiation studies