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W3082008341 abstract "The effective-Lagrangian description of Lorentz-invariance violation provided by the so-called Standard-Model Extension covers all the sectors of the Standard Model, allowing for model-independent studies of high-energy phenomena that might leave traces at relatively-low energies. In this context, the quantification of the large set of parameters characterizing Lorentz-violating effects is well motivated. In the present work, effects from the Lorentz-nonconserving Yukawa sector on the electromagnetic moments of charged leptons are calculated, estimated, and discussed. Following a perturbative approach, explicit expressions of leading contributions are derived and upper bounds on Lorentz violation are estimated from current data on electromagnetic moments. Scenarios regarding the coefficients of Lorentz violation are considered. In a scenario of two-point insertions preserving lepton flavor, the bound on the electron electric dipole moment yields limits as stringent as $10^{-28}$, whereas muon and tau-lepton electromagnetic moments determine bounds as restrictive as $10^{-14}$ and $10^{-6}$, respectively. Another scenario, defined by the assumption that Lorentz-violating Yukawa couplings are Hermitian, leads to less stringent bounds, provided by the muon anomalous magnetic moment, which turn out to be as restrictive as $10^{-14}$." @default.
W3082008341 created "2020-09-08" @default.
W3082008341 creator A5007131379 @default.
W3082008341 creator A5020979995 @default.
W3082008341 creator A5040135955 @default.
W3082008341 creator A5076310096 @default.
W3082008341 creator A5088611538 @default.
W3082008341 date "2021-03-02" @default.
W3082008341 modified "2023-10-18" @default.
W3082008341 title "Bounds on Lorentz-violating Yukawa couplings via lepton electromagnetic moments" @default.
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W3082008341 doi "https://doi.org/10.1103/physrevd.103.055003" @default.
W3082008341 hasPublicationYear "2021" @default.
W3082008341 type Work @default.
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