Revisiting CMSSM with Non-Universal Gaugino Masses under Current Constraints
Abstract
To address the longstanding tension between the Constrained Minimal Supersymmetric Standard Model (CMSSM) and recent experimental data, we investigate non-universal gaugino masses within an SU(5) Grand Unified Theory (GUT) framework, focusing on the g-SUGRA scenario where M3 M1 , M2 . This hierarchy enables a heavier gluino, thereby evading current experimental bounds on supersymmetric particles. Our analysis reveals that precise Higgs measurements place stringent constraints on the model, requiring β 5 and M0 20 \, β \,GeV. Although the g-SUGRA scenario can help reconcile the persistent (g-2)μ anomaly, the Higgs constraints significantly restrict its parameter space, making a large contribution to (g-2)μ challenging. We also assess the discovery prospects in upcoming dark matter direct detection experiments, including PandaX-xT (200 t.y.), LZ (projected), and XENONnT (20 t.y.), which may not fully cover the viable parameter space. In contrast, future collider experiments-such as the High-Luminosity LHC at 3\,ab-1 and CLIC1500 at 2.5\,ab-1-can comprehensively probe the remaining regions. These findings highlight g-SUGRA as a promising solution to the CMSSM tension and offer clear, testable predictions for upcoming collider searches.
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