Precision test of the muon-Higgs coupling at a high-energy muon collider

TL;DR

This paper investigates the potential to precisely measure the muon-Higgs coupling at high-energy muon colliders, which could reveal new physics beyond the Standard Model through multi-boson production processes.

Contribution

It demonstrates the feasibility of measuring the muon-Higgs coupling with high accuracy at 10 and 30 TeV muon colliders, highlighting sensitivity to new physics scales up to 100 TeV.

Findings

10% accuracy at 10 TeV collider

a few percent accuracy at 30 TeV collider

sensitivity to new physics scale of 30-100 TeV

Abstract

We explore the sensitivity of directly testing the muon-Higgs coupling at a high-energy muon collider. This is strongly motivated if there exists new physics that is not aligned with the Standard Model Yukawa interactions which are responsible for the fermion mass generation. We illustrate a few such examples for physics beyond the Standard Model. With the accidentally small value of the muon Yukawa coupling and its subtle role in the high-energy production of multiple (vector and Higgs) bosons, we show that it is possible to measure the muon-Higgs coupling to an accuracy of ten percent for a 10 TeV muon collider and a few percent for a 30 TeV machine by utilizing the three boson production, potentially sensitive to a new physics scale about $\Lambda \sim$ 30-100 TeV.