Neutrino charge constraints from scattering to the weak gravity conjecture to neutron stars
Arindam Das, Diptimoy Ghosh, Carlo Giunti, Arun Thalapillil
In various extensions of the Standard Model of particle physics, and intriguingly even in the three-generation Standard Model without neutrino masses, neutrinos are allowed to have very tiny electric charges. We revisit the emergence of such charges and constraints on them, adding to the repertoire of limits that exist in literature, including new indirect limits on the charges of the muon and tau neutrinos respectively. We also point out the flavor-universal bounds on neutrino charges, motivated by the weak gravity conjecture and based on the observation of neutron stars with very large magnetic fields. The latter set of limits are relatively model independent, relying only on the hypothesis that gravity must be the weakest force and that any charged neutrino must have a coupling to the photon. The weak gravity conjecture gives a lower bound on the possible neutrino charge. Astrophysical observations of Magnetars meanwhile give an upper bound, comparable to recent limits derived from the reactor neutrinos, considering elastic neutrino-electron scattering, and experiments constraining neutrino magnetic moments.