Gauged Lμ-Lτ at a muon collider
Abstract
We investigate the sensitivity of the projected TeV muon collider to the gauged Lμ-Lτ model. Two processes are considered: Z'-mediated two-body scatterings μ+ μ- + - with = μ or τ, and scattering with initial state photon emission, μ+ μ- γ Z',~Z' , where can be μ, τ or μ/τ. We quantitatively study the sensitivities of these two processes by taking into account possible signals and relevant backgrounds in a muon collider experiment with a center-of-mass energy s = 3~ TeV and a luminosity L=1~ ab-1. For two-body scattering one can exclude Z' masses MZ' 100~ TeV with O(1) gauge couplings. When MZ' 1~ TeV <s, one can exclude g' 2× 10-2. The process with photon emission is more powerful than the two-body scattering if MZ' < s. For instance, a sensitivity of g' 4 × 10-3 can be achieved at MZ' = 1~ TeV. The parameter spaces favored by the (g-2)μ and B anomalies with MZ' > 100~ GeV are entirely covered by a muon collider.
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