I2 molecule for neutrino mass spectroscopy: ab initio calculation of spectral rate

Abstract

It has recently been argued that atoms and molecules may become good targets of determining neutrino parameters still undetermined, if atomic/molecular process is enhanced by a new kind of coherence. We compute photon energy spectrum rate arising from coherent radiative neutrino pair emission processes of metastable excited states of I2 and its iso-valent molecules, |Av → |Xv' + γ + ij and |A'v → |Xv' + γ + ij with γ an IR photon and i(j) i(j)-th neutrino mass eigenstates, and show how fundamental neutrino parameters may be determined. Energies of electronically excited states of I2, including the effect of spin-orbit couplings were calculated by the multiconfigurational second order perturbation (CASPT2) method. Summation over many vibrational levels of intermediate states is fully incorporated. Unlike atomic candidate of a much larger energy difference such as Xe, I2 transitions from a vibrational level A(v=0) to X(v' = 24) give an opportunity of determination of the mass type (Majorana vs Dirac distinction) and determination of Majorana CPV (charge-conjugation parity violating) phases, although the rate is much smaller.