Parametric resonance in neutrino oscillations induced by ultra-light dark matter and implications for KamLAND and JUNO

Abstract

If ultra-light dark matter (ULDM) exists and couples to neutrinos, the neutrino oscillation probability might be significantly altered by a parametric resonance. This resonance can occur if the typical frequency of neutrino flavor-oscillations m2/(2E), where m2 is the mass-squared difference of the neutrinos and E is the neutrino energy, matches the oscillation frequency of the ULDM field, determined by its mass, mφ. The resonance could lead to observable effects even if the ULDM coupling is very small, and even if its typical oscillation period, given by τφ=2π/mφ, is much shorter than the experimental temporal resolution. Defining a small parameter εφ to be the ratio between the contribution of the ULDM field to the neutrino mass and the vacuum value of the neutrino mass, the impact of the resonance is particularly significant if εφ mφ L 4, where L is the distance between the neutrino source and the detector. Such parametric resonance can improve the fit to the KamLAND experiment measurements by about 3.5\,σ compared to standard oscillations. This scenario will be tested by the JUNO experiment.

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