The Higgs boson mass and SUSY spectra in 10D SYM theory with magnetized extra dimensions

TL;DR

This paper investigates the Higgs boson mass and supersymmetric particle spectra within a 10D SYM theory compactified on magnetized tori, aligning theoretical predictions with recent experimental data.

Contribution

It provides a detailed analysis of SUSY spectra and Higgs mass in a specific 10D SYM model with magnetic fluxes, incorporating moduli- and anomaly-mediated SUSY breaking.

Findings

Predicted Higgs mass consistent with experimental measurements.

Derived SUSY spectra compatible with current collider constraints.

Demonstrated realistic flavor structures from magnetized compactification.

Abstract

We study the Higgs boson mass and the spectrum of supersymmetric (SUSY) particles in the well-motivated particle physics model derived from a ten-dimensional supersymmetric Yang-Mills theory compactified on three factorizable tori with magnetic fluxes. This model was proposed in a previous work, where the flavor structures of the standard model including the realistic Yukawa hierarchies are obtained from non-hierarchical input parameters on the magnetized background. Assuming moduli- and anomaly-mediated contributions dominate the soft SUSY breaking terms, we study the precise SUSY spectra and analyze the Higgs boson mass in this mode, which are compared with the latest experimental data.