Abstract
Neutrino telescopes provide strong sensitivity to sterile neutrino oscillations through matter-enhanced oscillation, occurring in the few TeV energy range for eV$^{2}$-scale neutrino mass-squared splittings. Prior searches have focused on $\nu_\mu$ disappearance, which has a particularly strong sensitivity to the mixing angle $\theta_{24}$ via $\nu_\mu\rightarrow\nu_s$ transitions. Nowadays, the $\nu_\mu\rightarrow\nu_e$ and $\nu_\mu\rightarrow\nu_\tau$ appearance channels have been considered less promising at neutrino telescopes, due in part to the much smaller target volume for cascades relative to tracks. This work explores the detectability of these signatures at neutrino telescopes given present constraints on sterile neutrino mixing, and as an example, forecasts the sensitivity of the IceCube Neutrino Observatory to the mixing angles $\theta_{14}$, $\theta_{24}$, and $\theta_{34}$ in the 3+1 sterile neutrino model using the cascade channel with ten years of data. We find that $\nu_\tau$ appearance signatures consistent with the existing IceCube $\nu_\mu$ disappearance best-fit point are discoverable for values of $\theta_{34}$ consistent with world constraints, and that the sterile neutrino parameters favored by the BEST and gallium anomalies are expected to be testable at the 95\% confidence level.
Highlights
The three-mass and three active-flavor neutrino paradigm has been well studied [1–6]
We have considered IceCube’s sensitivity to sterile neutrinos through the cascade appearance channel
Both ντ and νe appearance signatures are in principle observable by IceCube for θ14 and θ34 values within existing constraints, θ24 around IceCube’s present preferred values from νμ disappearance, and many possible values Δm241
Summary
The three-mass and three active-flavor neutrino paradigm has been well studied [1–6]. In addition to being a strong refutation, lower mass solutions consistent with the LSND [8] and MiniBooNE anomalies and constraints around 1 eV2 [13,35–39], a possible interpretation of this result is as a statistically weak hint of a disappearance signature around Δm241 ∼ 4.5 eV2 Further exploration of this region of parameter space in other channels at neutrino telescopes is strongly motivated. As we will show, constraining the νe appearance signature at IceCube under the nonzero presently favored value of θ24 from νμ disappearance have direct implications for the BEST anomaly and the associated reactor-νanomaly This rich phenomenology motivates multi-mixing-angle and multichannel searches to fully explore sterile-neutrino mixing around the matter resonance at neutrino telescopes. We explore this space of mixing parameters by using publicly available tools, effective areas, and Monte Carlo simulation to estimate IceCube’s sensitivity to θ24, θ34, and Δm241 through cascades
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