New limits on neutrino decay from the Glashow resonance of high-energy cosmic neutrinos (2004.06844v1)
Abstract: Discovering neutrino decay would be strong evidence of physics beyond the Standard Model. Presently, there are only lax lower limits on the lifetime $\tau$ of neutrinos, of $\tau/m \sim 10{-3}$ s eV${-1}$ or worse, where $m$ is the unknown neutrino mass. High-energy cosmic neutrinos, with TeV-PeV energies, offer superior sensitivity to decay due to their cosmological-scale baselines. To tap into it, we employ a promising method, recently proposed, that uses the Glashow resonance $\bar{\nu}_e + e \to W$, triggered by $\bar{\nu}_e$ of 6.3 PeV, to test decay with only a handful of detected events. If most of the $\nu_1$ and $\nu_2$ decay into $\nu_3$ en route to Earth, no Glashow resonance would occur in neutrino telescopes, because the remaining $\nu_3$ have only a tiny electron-flavor content. We turn this around and use the recent first detection of a Glashow resonance candidate in IceCube to place new lower limits on the lifetimes of $\nu_1$ and $\nu_2$. For $\nu_2$, our limit is the current best. For $\nu_1$, our limit is close to the current best and, with the imminent detection of a second Glashow resonance, will vastly surpass it.
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