Analysis of the Decay $e^{+} e^{-} \to \text{invisible} + H(\to \mu \mu)$ at a Collision Energy of 500 GeV

TL;DR

This paper discusses the potential to study second-generation Yukawa couplings through the process e+e- to invisible plus Higgs decaying to muons at a future linear collider, focusing on experimental challenges and future prospects.

Contribution

It provides an overview of experimental challenges and prospects for analyzing Higgs to muons decays in the context of a 500 GeV linear collider.

Findings

Identifies key experimental challenges at 500 GeV collision energy.

Provides outlook on analysis results at 250 GeV.

Highlights the potential to probe second-generation Yukawa couplings.

Abstract

The analysis of $e^{+} e^{-} \to \text{invisible} + H(\to \mu \mu)$ at a next generation linear collider presents an opportunity to study the coupling of the Yukawa couplings of the second generation in a clean environment. We give an overview over the experimental challenges of this analysis at a collision energy of 500 GeV and present an outlook to the results of the analysis at a collision energy of 250 GeV.