The role of $\beta$ decay as a low-energy probe of physics beyond the
Standard Model is reviewed. Traditional searches for deviations from the
Standard Model structure of the weak interaction in $\beta$ decay are discussed
in the light of constraints from the LHC and the neutrino mass. Limits on the
violation of time-reversal symmetry in $\beta$ decay are compared to the strong
constraints from electric dipole moments. Novel searches for Lorentz symmetry
breaking in the weak interaction in $\beta$ decay are also included, where we
discuss the unique sensitivity of $\beta$ decay to test Lorentz invariance. We
end with a roadmap for future $\beta$-decay experiments.Comment: Accepted for publication in Rev. Mod. Phys. 86 pages, 13 figure

Timmermans, R. G. E.

Vos, K. K.

Wilschut, H. W.

Reviews of Modern Physics

English

arXiv

The role of beta decay as a low-energy probe of physics beyond the standard model is reviewed. Traditional searches for deviations from the standard model structure of the weak interaction in beta decay are discussed in light of constraints from the Large Hadron Collider and the neutrino mass. Limits on the violation of time-reversal symmetry in beta decay are compared to the strong constraints from electric dipole moments. Novel searches for Lorentz symmetry breaking in the weak interaction in beta decay are also included, where the unique sensitivity of beta decay to test Lorentz invariance is discussed. In the conclusion a possible road map for future beta-decay experiments is presented.</p

University of Groningen