Search Capability for $η\to ν_{e,Ï}\barν_{e,Ï}$ Decays in Cubic Kilometer Neutrino Detectors
arXiv:0902.3451 · doi:10.1103/PhysRevD.81.117101
Abstract
We investigate the discovery potential of cubic kilometer neutrino observatories such as IceCube to set stringent limits on the forbidden decays $η\toν_e\barν_e$ and $η\toν_Ï\barν_Ï$. The signatures for these decays are cascade events resulting from the charged-current reactions of $ν_e, ν_Ï$, $\barν_e$ and $\barν_Ï$ on nuclei in such detectors. Background cascade events are mainly due to $ν_e$'s from atmospheric $μ$, $K^+$, and $K^{0}_S$ decays and to a lesser extent from atmospheric $ν_μ$ neutral current interactions with nuclei. A direct upper limit for the branching ratio $η\to ν_{e,Ï} \barν_{e,Ï}$ of $4.5\times10^{-4}$ at 90% CL can be achieved.
Typos were fixed.