Neutrino effective potential in a fermion and scalar background

Abstract

We consider the neutrino self-energy in a background composed of a scalar particle and a fermion using a simple model for the coupling of the form λ fRLφ. The results are useful in the context of Dark Matter-neutrino interaction models in which the scalar and/or fermion constitute the dark-matter. The corresponding formulas for models in which the scalar particle couples to two neutrinos via a coupling of the form λ(φ)cRLφ are then obtained as a special case. In the presence of these interactions there can be new contributions to the neutrino effective potential and index of refraction in the context of neutrino collective oscillations in a supernova and in the Early Universe hot plasma before neutrino decoupling. The formulas obtained here can be used to estimate those effects and/or put limits on the model parameters based on the contribution that such interactions can have in those contexts. A particular feature of the results is that the contribution to the neutrino self-energy or effective potential in a neutrino background due to the φ coupling is proportional to the antineutrino-neutrino asymmetry (n - n), in contrast to the standard Z contribution which is proportional to (n - n). Therefore the two contributions tend to cancel. If the cancellation is significant, it is conceivable that the O(1/m4φ) terms give the dominant contribution. Alternatively, a limit can be set by requiring that the contribution of the φ interaction to the neutrino effective potential does not cancel the standard contribution in an appreciable way.