The Neutrino Magnetic Moment Induced by Leptoquarks
Abstract
Allowing leptoquarks to interact with both right-handed and left-handed neutrinos (i.e., ``non-chiral'' leptoquarks), we show that a non-zero neutrino magnetic moment can arise naturally. Although the mass of the non-chiral vector leptoquark that couples to the first generation fermions is constrained severely by universality of the π+ leptonic decays and is found to be greater than 50 TeV, the masses of the second and third generation non-chiral vector leptoquarks may evade such constraint and may in general be in the range of 1 100 TeV. With reasonable input mass and coupling values, we find that the neutrino magnetic moment due to the second generation leptoquarks is of the order of 10-12 10-16 μ B while that caused by the third generation leptoquarks, being enhanced significantly by the large top quark mass, is in the range of 10-10 10-14 μ B.
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