Towards the Natural Gauge Mediation

TL;DR

This paper proposes an enhanced gauge-mediated supersymmetry breaking model that addresses the Higgs mass, fine-tuning, and dark matter issues while maintaining unification and flavor solutions, with testable predictions at the LHC.

Contribution

It introduces a GMSB model with generalized Giudice-Masiero mechanism and Higgs-messenger interactions, reducing fine-tuning and predicting accessible superpartner spectra.

Findings

Low-scale fine-tuning measure as low as 20.

Light stop and gluino masses below 1 and 2 TeV respectively.

Consistent gravitino dark matter with thermal relic density.

Abstract

The sweet spot supersymmetry (SUSY) solves the mu problem in the Minimal Supersymmetric Standard Model (MSSM) with gauge mediated SUSY breaking (GMSB) via the generalized Giudice-Masiero (GM) mechanism where only the mu-term and soft Higgs masses are generated at the unification scale of the Grand Unified Theory (GUT) due to the approximate PQ symmetry. Because all the other SUSY breaking soft terms are generated via the GMSB below the GUT scale, there exists SUSY electroweak (EW) fine-tuning problem to explain the 125 GeV Higgs boson mass due to small trilinear soft term. Thus, to explain the Higgs boson mass, we propose the GMSB with both the generalized GM mechanism and Higgs-messenger interactions. The renormalization group equations are runnings from the GUT scale down to EW scale. So the EW symmetry breaking can be realized easier. We can keep the gauge coupling unification and solution to the flavor problem in the GMSB, as well as solve the \mu/B_{\mu}-problem. Moreover, there are only five free parameters in our model. So we can determine the characteristic low energy spectra and explore its distinct phenomenology. The low-scale fine-tuning measure can be as low as 20 with the light stop mass below 1 TeV and gluino mass below 2 TeV. The gravitino dark matter can come from a thermal production with the correct relic density and be consistent with the thermal leptogenesis. Because gluino and stop can be relatively light in our model, how to search for such GMSB at the upcoming run II of the LHC experiment could be very interesting.