Is Electroweak Symmetry Breaking Still Natural in the MSSM?

Abstract

The absence of any signal of supersymmetry (SUSY) at the LHC has raised the SUSY particle mass scale compared to Z boson mass MZ. We investigate the naturalness of the electroweak symmetry breaking after considering radiative symmetry breaking along with 125 GeV Higgs mass. We find that the important quantity to measure the naturalness of the hierarchy between the SUSY scale and MZ is the separation between the radiative symmetry breaking scale, i.e., where mHu2+μ2 turns negative for large β case (μ is the Higgsino mass and mHu is the SUSY breaking up-type Higgs boson mass) and the average stop mass. Using this measure, one can show that the electroweak symmetry breaking can be natural even if μ is large contrary to the prevailing claim that μ is needed to be small to maintain the naturalness.