Constraints on L=2 Vector Bosons with Tree Couplings to SM Particles
Abstract
We investigate phenomenological implications of vector bosons V transforming as (1, 2, -3/2) under the standard model (SM) product gauge group SU(3)C, SU(2)L and U(1)Y. These vector bosons can couple to two SM leptons at tree-level forming dimension-4 operators. These operators dictate V to have two units of global lepton number, L = 2. The operators generated conserve the global lepton number but can violate generational lepton numbers. We study constraints on the couplings Y of V to SM particles using tree-level processes such as lα- lβ+ l- lσ-, muonium and antimuonium oscillation, neutrino trident scattering, inverse muon decay, e- e+ l- l+, and also one-loop level processes such as the magnetic dipole moment of a charged lepton and li lj γ. Strong constraints are obtained from lα- lβ+ l- lσ- with |Ye e Y*μ e| < 3.29 × 10-11(mV/ GeV)2,|Ye e Y*e μ| < 3.29 × 10-11(mV/ GeV)2 and from li lj γ with |Yτ eYμτ*|<3.46×10-12(mV/ GeV)2, |Ye τYτ μ*|<3.46×10-12(mV/ GeV)2, respectively. Interestingly, the imaginary part of the coupling constant in our model induces CP violation, which is constrained by experimental limits on the electric dipole moment.
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