Hu,d-messenger Couplings Address the μ/Bμ \& At/mHu2 Problem and (g-2)μ Puzzle

Abstract

Gauge mediated supersymmetry (SUSY)-breaking (GMSB) furnishes the best idea to overcome the flavor problem in SSMs, supersymmetric stand models (SM). However, implemented in the minimal SSM (MSSM), a very serious fine-tuning problem arises, owing to the absence of a large At term in the stop sector to radiatively enhance the SM-like Higgs boson mass. In the extended GMSB coupling Hu to messengers can alleviate this problem but encounters the At/mHu2 problem, i.e., at the same time a large mHu2 is generated, rendering radiative electroweak spontaneously breaking (EWSB) problematic. This issue shows similarity to another long-standing problem of GMSB, the μ/Bμ problem, and, of great interest, we find that they may admit the same solution, nonradiative EWSB. Such a solution is naturally accommodated when both Hu and Hd couple to messengers. As a bonus of nonradiative EWSB, the sleptons tend to be very light due to the significant renormalization group equation effect and they are able to account for the (g-2)μ puzzle. As a concrete example, we investigate a hidden sector with (10, 10) messengers.