Multi Higgs Boson Signals of a Modified Muon Yukawa Coupling at a Muon Collider
Abstract
We study di-Higgs and tri-Higgs boson productions at a muon collider as functions of the modification of the muon Yukawa coupling resulting from new physics parameterized by the dimension 6 mass operator. We show that the di-Higgs signal can be used to observe a deviation in the muon Yukawa coupling at the 10 % level for s = 10 TeV and at the 3.5 % level for s = 30 TeV. The tri-Higgs signal improves the sensitivity dramatically with increasing s, reaching 0.8 % at s = 30 TeV. We also study all processes involving Goldstone bosons originating from the same operator, discuss possible model dependence resulting from other operators of dimension 6 and higher, and identify multi-Higgs productions and one additional process as golden channels. We further extend the study to the two Higgs doublet model type-II and show that di-Higgs and tri-Higgs signals involving heavy Higgs bosons can be enhanced by a factor of ( β)6, which results in the potential sensitivity to a modified muon Yukawa coupling at the 10-6 level already at a s = 10 TeV muon collider. The results can be easily customized for other extensions of the Higgs sector.
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