Unraveling The Physics Behind Modified Higgs Couplings -- LHC vs. a Higgs Factory

TL;DR

This paper explores how modified Higgs couplings to photons and gluons suggest new mediators, proposing that exotic Higgs decays into these mediators could reveal new physics, especially at future Higgs factories like the ILC.

Contribution

It introduces a novel approach to detect new electroweak mediators through Higgs decay widths and proposes the ILC as a promising platform for discovery.

Findings

Higgs can decay into mediators with significant width.

Detecting off-shell mediators at the LHC is challenging.

Future Higgs factories can effectively discover electroweak mediators.

Abstract

Strongly modified Higgs-photon-photon and Higgs-gluon-gluon couplings indicate new electroweak and color mediators, respectively, with a light mass and a significant coupling to the Higgs boson. We point out the Higgs boson could have a significant decay width into the mediators and propose uncovering the hidden new physics through such exotic decays, which can probe the Higgs coupling with the mediators directly. Focusing on the electroweak mediators, we study a simplified model using as an example final states with tau leptons and neutrinos. Because one of the mediators is off-shell and its decay products are extremely soft, it is challenging to make a discovery at the Large Hadron Collider. A Higgs factory such as the International Linear Collider, however, could serve as a discovery machine for the EW mediators even in an early stage.