Exact Methods for Self Interacting Neutrinos
Abstract
The effective many-body Hamiltonian which describes vacuum oscillations and self interactions of neutrinos in a two flavor mixing scheme under the single angle approximation has the same dynamical symmetries as the well known BCS pairing Hamiltonian. These dynamical symmetries manifest themselves in terms of a set of constants of motion and can be useful in formulating the collective oscillation modes in an intuitive way. In particular, we show that a neutrino spectral split can be simply viewed as an avoided level crossing between the eigenstates of a mean field Hamiltonian which includes a Lagrange multiplier in order to fix the value of an exact many-body constant of motion. We show that the same dynamical symmetries also exist in the three neutrino mixing scheme by explicitly writing down the corresponding constants of motion.
Cite
@article{arxiv.1311.0143,
title = {Exact Methods for Self Interacting Neutrinos},
author = {Y. Pehlivan and A. B. Balantekin and Toshitaka Kajino},
journal= {arXiv preprint arXiv:1311.0143},
year = {2015}
}
Comments
To appear in the proceedings of CETUP* 2013