Neutrinos of non-zero rest mass and the equivalence principle

Abstract

Assuming that neutrinos of non-zero rest mass dominate the mass density in the universe, and also the mass density on the scale of clusters of galaxies, one obtains the upper limit m < 20 eV/c2 on their mass, independent of the values of H0 and q0, and the lower limit m > 5 eV/c2 independent of q0 and almost independent of H0. If they are not to dominate the mass density on the scale of binary galaxies and small groups of galaxies, one must have m < 14 eV/c2 independent of q0 and almost independent of H0. Going one step further, we allow neutrinos to have different gravitational and inertial masses so that r = gravitational / inertial mass. Then using m for the inertial mass, we have m.r1/4 > 5 eV/c2, m.r(1/4) < 14 eV/c2 and m.r < 20 eV/c2, which together imply r < 6.3. For a specific value, say, 12 eV/c2, for m, we have 0.03 < r < 1.7. Keywords: Neutrinos, rest mass, equivalence principle.