Natural Supersymmetry From Dynamically Reduced Radiative Correction
Huayong Han, Sibo Zheng
TL;DR
This paper proposes a new approach to natural supersymmetry where the supersymmetric mass spectrum can be significantly above the TeV scale, achieved through dynamically reduced radiative corrections and no-scale supergravity.
Contribution
It introduces a model with non-universal gaugino masses that satisfies Higgs and LHC constraints, expanding the viable parameter space for supersymmetry.
Findings
Supersymmetric spectrum can be above TeV scale with naturalness.
Explicit parameter space satisfying Higgs mass and LHC constraints.
Potential realization via no-scale supergravity.
Abstract
New natural supersymmetry is explored in the light of dynamically reduced radiative correction. Unlike in the conventional natural supersymmetry, the range of supersymmetric mass spectrum can be far above the TeV scale instead. For the illustrating model of non-universal gaugino masses, the parameter space which satisfies the Higgs mass and other LHC constraints is shown explicitly. We propose that this example can be realized by employing the no-scale supergravity.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Cosmology and Gravitation Theories · Dark Matter and Cosmic Phenomena