Effects of CPT violation on the neutrino charge radius in the Standard Model Extension

Abstract

CPT-odd effects on the neutrino charge radius are studied within the Standard Model Extension. We consider CPT violation from the electroweak Yang-Mills sector, characterized by Lorentz-violating coefficients (k1)μ and (k2)μ, which have positive mass units. The γ vertex arises at tree level via exchange of two Z bosons. Although suppressed by 1mZ4, this process is notable. The vertex function μ includes three independent gauge structures satisfying the Ward identity qμ μ = 0, characteristic of neutral particles, and induces gauge-independent electromagnetic form factors. Besides charge and anapole, two novel form factors appear. The charge form factor fQ(q2) contains an energy-dependent term causing fQ(0)≠ 0, so electromagnetic properties are undefined for real photons with CPT violation. Instead, fQ and the charge radius are defined in the static limit: q0=0 and q 0. Here, fQ(0, 0)=0 and a correction to the SM neutrino charge radius is found: \[ r2 CPTV = 3c2W2cW4 [k22mZ2 + k22mZ22θγ ] 1mZ2, \] with θγ the angle between q and k2. Using recent bounds on (ki)μ and reasonable assumptions, we obtain a small correction r2 CPTV ≤ 0.83 × 10-51\ cm2.