Electroweak versus high scale finetuning in the 19-parameter SUGRA model

Abstract

Recently, two measures of electroweak finetuning (EWFT) have been introduced for SUSY models: EW compares the Z mass to each separate weak scale contribution to mZ while HS compares the Z mass to high scale input parameters and their consequent renormalizaton group evolution (1/ is the % of fine tuning). While the paradigm mSUGRA/CMSSM model has been shown to be highly finetuned under both parameters (EW> 102 and HS> 103), the two-parameter non-universal Higgs model (NUHM2) in the context of radiatively-driven natural SUSY (RNS) enjoys EW as low as 10, while HS remains > 103. We investigate finetuning in the 19-free-parameter SUGRA model (SUGRA19). We find that with 19 free parameters, the lowest EW points are comparable to what can be achieved in NUHM2 with just 6 free parameters. However, in SUGRA19, HS can now also reach as low as 5-10. The conditions which lead to low HS include mHu mZ at the high scale, with non-universal gaugino masses M1,2>> M3 also at mGUT. The low HS models are severely constrained by b sγ branching fraction. In both cases of low EW and HS, the superpotential μ parameter should be 100-300 GeV. While SUSY models with low EWFT may or may not be discoverable at LHC, the predicted light higgsinos must show up at a linear e+e- collider with s> 2|μ |.