Neutrino mass spectroscopy using Er3+ ions placed at inversion center of host crystals
Abstract
We propose neutrino mass spectroscopy using Er3+:Cs2NaYF6 or :Y2O3 crystal placed in hollow of a Bragg fiber as a target system. Unknown neutrino parameters and properties such as the lightest neutrino mass, Majorana/Dirac distinction, and CP violating phases can be explored by measuring scattered photons (γ) along the excitation (and fiber) axis by varying Raman trigger (γ0) directions, in Er3+ de-excitation process from |e state to |g state; |e \,, | e + γ0 → | g + γ + ij, i\,, i = 1, 2,3 being a mass-resolved neutrino state. Rates and required level of QED background rejection are calculated using measured data of the target system.
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