Double Higgs Production in the 4$\tau$ channel from resonances in longitudinal vector boson scattering at a 100 TeV collider

TL;DR

This paper evaluates the potential of a 100 TeV collider to detect heavy resonances decaying into Higgs pairs in the 4τ channel, focusing on longitudinal vector boson scattering and composite Higgs models.

Contribution

It introduces a Monte Carlo analysis of heavy resonance detection via Higgs pair production in the 4τ channel at a future 100 TeV collider, highlighting discovery prospects.

Findings

Discovery reach up to 4.2 TeV for 70% width resonance

Detection sensitivity depends on collider energy and luminosity

Analysis based on a phenomenological resonance model in composite Higgs scenarios

Abstract

We discuss the sensitivity of a 100 TeV $pp$ collider to heavy resonances produced in longitudinal vector boson scattering and decaying to a pair of Higgs bosons. A Monte Carlo study has been performed using the $H \to \tau \tau$ decay channel for both Higgs bosons, comparing the kinematics of such a signal to the irreducible Standard Model backgrounds. The results are presented in the context of a phenomenological model of a resonance ($\eta$) coupling to goldstone modes, $V_L V_L \to \eta \to HH$, as can arise in composite Higgs models. With a fractional width of 70% (20%), the $5 \sigma$ discovery reach is 4.2 (2.9) TeV in resonance mass for 10 ab$^{-1}$ of integrated luminosity. We also discuss the dependence of the mass reach on the collider energy and integrated luminosity.