Mirror Cosmological Relaxation of the Electroweak Scale

TL;DR

This paper proposes a variation of the cosmological relaxation mechanism for the electroweak scale, utilizing a mirror symmetry to stabilize the Higgs mass and exploring its thermal evolution and experimental implications.

Contribution

It introduces a mirror symmetry-based stabilization of the electroweak scale within the relaxation framework, expanding the possible cutoff scale up to 10^9 GeV.

Findings

Mirror SM can have sizable couplings with the ordinary SM.

Mirror SM can interact with the ordinary SM with negligible strength.

The cutoff scale can reach up to 10^9 GeV.

Abstract

The cosmological relaxation mechanism proposed in [1] allows for a dynamically generated large separation between the weak scale and a theory cutoff, using a sharp change of theory behaviour upon crossing the limit between unbroken and broken symmetry phases. In this note we present a variation of this scenario, in which stabilization of the electroweak scale in the right place is ensured by the $Z_2$ symmetry exchanging the Standard Model (SM) with its mirror copy. We sketch the possible ways to produce viable thermal evolution of the Universe and discuss experimental accessibility of the new physics effects. We show that in this scenario the mirror SM can either have sizeable couplings with the ordinary one, or, conversely, can interact with it with a negligible strength. The overall cutoff allowed by such a construction can reach $10^9$ GeV.