Archive/Isotropic and Anisotropic Lorentz-Violating Signatures in Z Boson Resonances at the LHC
Isotropic and Anisotropic Lorentz-Violating Signatures in Z Boson Resonances at the LHC
Juansher Jejelava, Zurab Kepuladze
10 de julio de 2026
en

Abstract

We investigate the effects of Lorentz invariance violation (LIV) on the resonance structure of the Z boson in high-energy collider experiments. Building on previous work where resonance line-shape distortions were established, we extend the analysis to include spacelike and lightlike orientations of the LIV vector. The modified dispersion relation induces rapidity-dependent distortions of the resonance profile, with effects growing strongly at large rapidities. In anisotropic scenarios, the signal exhibits characteristic sidereal-time modulation due to the rotation of the Earth relative to the preferred LIV direction. We show that, while global analyses dilute the effect, dedicated studies focusing on high-rapidity bins and sidereal-time dependence can significantly enhance sensitivity. The resulting shifts in reconstructed resonance parameters can reach or exceed current experimental precision for LIV scales as low as δLIV∼10−8. These results demonstrate that collider measurements of unstable gauge bosons provide a complementary and competitive probe of Lorentz violation.

IPC Classification

G06H01

Keywords

isotropicanisotropiclorentz-violatingsignaturesbosonresonancesparticlesinvestigateeffectslorentzinvarianceviolationresonancestructurehigh-energycolliderexperimentsbuildingpreviousworkwhereline-shapedistortionsestablished
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