Particle Spectroscopy of Supersymmetric SO(10) with Non-Universal Gaugino Masses

TL;DR

This paper investigates the particle spectrum of a supersymmetric SO(10) model with non-universal gaugino masses, identifying realistic solutions compatible with dark matter constraints and proposing benchmarks for experimental testing.

Contribution

It introduces a detailed analysis of low-scale particle spectra in an SO(10) inspired SUSY model with non-universal gaugino masses, including benchmark points for experimental validation.

Findings

Realistic solutions exist for both signs of mu.

Benchmark points are identified for LHC and dark matter experiments.

Model remains consistent with dark matter and experimental constraints.

Abstract

We examine the low scale particle spectroscopy of an SO(10) (or equivalently SU(5)) inspired supersymmetric model with non-universal gaugino masses. The model assumes minimal supergravity and contains the same number of fundamental parameters as the constrained minimal supersymmetric model (CMSSM.) Realistic solutions compatible with dark matter and other applicable experimental constraints are shown to exist for both positive and negative signs of the MSSM parameter mu. We present several benchmark points which will be tested at the LHC and by the ongoing direct and indirect dark matter detection experiments.