English

Testing neutrino instability with active galactic nuclei

High Energy Physics - Phenomenology 2010-12-03 v1

Abstract

Active galactic nuclei and gamma ray bursts at cosmological distances are sources of high-energy electron and muon neutrinos and provide a unique test bench for neutrino instability. The typical lifetime-to-mass ratio one can reach there is τ/m500Mpc/cEν500\tau/m\sim 500 Mpc/cE_{\nu}\sim 500 s/eV. We study the rapid decay channel νiνj+ϕ\nu_i\to\nu_j+\phi, where ϕ\phi is a massless or very light scalar (possibly a Goldstone boson), and point out that one can test the coupling strength of gijνiνjg_{ij}\nu_i\nu_j down to gij\lsim108eV/mg_{ij}\lsim 10^{-8} eV/m by measuring the relative fluxes of νe\nu_{e}, νμ\nu_{\mu} and ντ\nu_{\tau}. This is orders of magnitude more stringent bound than what one can obtain in other phenomena, e.g. in neutrinoless double beta decay with scalar emission.

Keywords

Cite

@article{arxiv.hep-ph/9901403,
  title  = {Testing neutrino instability with active galactic nuclei},
  author = {P. Keranen and J. Maalampi and J. T. Peltoniemi},
  journal= {arXiv preprint arXiv:hep-ph/9901403},
  year   = {2010}
}

Comments

3 pages