Absorption of solar radiation by solar neutrinos

Abstract

We calculate the absorption probability of photons radiated from the surface of the Sun by a left-handed neutrino with definite mass and a typical momentum for which we choose |p1|=0.2 MeV, producing a heavier right-handed antineutrino. Considering two transitions the 1 -> 2 and 2 -> 3 we obtain two oscillation lengths L12=4960.8 m, L23=198.4 m, two absorption probabilities P12abs.=2.5 10-67, P23abs.=1.2 10-58 and the two absorption ranges R12abs.=4.47 104 R=208.0 au, R23abs.=0.89 104 R=41.4 au, using a neutrino mass differences of | m212|=10 meV, | m223|=50 meV and associated transition dipole moments. We collect all necessary theoretical ingredients, i.e. neutrino mass and mixing scheme, induced electromagnetic transition dipole moments, quadratic charged lepton mass asymmetries and their interdependence.

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