Precision W-Boson and Higgs Boson Mass Determinations at Muon Colliders

Abstract

Precise determinations of the masses of the W boson and of the top quark could stringently test the radiative structure of the Standard Model (SM) or provide evidence for new physics. We analyze the excellent prospects at a muon collider for measuring MW and mt in the W+W- and ZH threshold regions. With an integrated luminosity of 10 (100) fb-1, the W-boson mass could be measured to a precision of 20 (6) MeV, provided that theoretical and experimental systematics are understood. A measurement of MW=6 MeV would constrain the mass of a 100 GeV Higgs to about 10 GeV. We demonstrate that a measurement at future colliders of the Bjorken process. With an integrated luminosity of 100 it is possible to measure the Standard Model Higgs mass to within 45 at a μ+μ- collider for =100.

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