Longstanding anomalies in neutrino oscillation experiments point to the existence of a fourth, hypothetical neutrino: the sterile neutrino. Global fits to a sterile neutrino model find a strong ...preference for such a model over the massive neutrino Standard Model. However, the fit results suffer from inconsistencies between datasets, referred to as tension. This motivates more complicated models for new physics. This thesis considers a model of unstable sterile neutrinos, where the heaviest mass state can decay. First, the phenomenology of unstable sterile neutrinos is explored in the IceCube experiment, a gigaton neutrino detector located at the South Pole. Second, global fits to traditional and unstable sterile neutrino models are combined with one year of data from IceCube. A preference for the unstable sterile neutrino model is found, as well as a reduction in tension. Lastly, a high statistics search for unstable sterile neutrinos is performed in IceCube. The Standard Model is rejected with a 𝑝-value of 2.8% and the traditional sterile neutrino model is rejected with a 𝑝-value of 4.9%. The best-fit point is formula , formula, and 𝑔² = 2.5𝜋 ± 1.5𝜋, where 𝑔 is the coupling that mediates the neutrino decay. The best-fit corresponds to a lifetime of the heaviest neutrino of 𝜏₄/𝑚₄ = 6 × 10⁻¹⁶ s/eV. A Bayesian analysis finds a best model with similar sterile parameters.
Ph.D.
Longstanding anomalies in neutrino oscillation experiments point to the existence of a fourth, hypothetical neutrino: the sterile neutrino. Global fits to a sterile neutrino model find a strong ...preference for such a model over the massive neutrino Standard Model. However, the fit results suffer from inconsistencies between datasets, referred to as tension. This motivates more complicated models for new physics. This thesis considers a model of unstable sterile neutrinos, where the heaviest mass state can decay. First, the phenomenology of unstable sterile neutrinos is explored in the IceCube experiment, a gigaton neutrino detector located at the South Pole. Second, global fits to traditional and unstable sterile neutrino models are combined with one year of data from IceCube. A preference for the unstable sterile neutrino model is found, as well as a reduction in tension. Lastly, a high statistics search for unstable sterile neutrinos is performed in IceCube. The Standard Model is rejected with a \(p\)-value of 2.8% and the traditional sterile neutrino model is rejected with a \(p\)-value of 4.9%. The best-fit point is \(\Delta m_{41}^2 = 6.7^{+3.9}_{-2.5}\) eV\(^{2}\), \(\sin^2 2 \theta_{24} = 0.33^{+0.20}_{-0.17}\), and \(g^2 = 2.5 \pi \pm 1.5 \pi\), where \(g\) is the coupling that mediates the neutrino decay. The best-fit corresponds to a lifetime of the heaviest neutrino of \(\tau_4/m_4 = 6\times 10^{-16}\) s/eV. A Bayesian analysis finds a best model with similar sterile parameters.
We study the phenomenology of neutrino decay together with neutrino oscillations in the context of eV-scale sterile neutrinos. We review the formalism of visible neutrino decay in which one of the ...decay products is a neutrino that potentially can be observed. We apply the formalism developed for decay to the recent sterile neutrino search performed by IceCube with TeV neutrinos. We show that for \(\nu_4\) lifetime \(\tau_4/m_4 \lesssim 10^{-16} {\rm eV^{-1}s}\), the interpretation of the high-energy IceCube analysis can be significantly changed.
