Comparison of SUSY spectra generators for natural SUSY and string landscape predictions

TL;DR

This paper compares different SUSY spectrum generators to evaluate predictions of natural SUSY models and string landscape scenarios, focusing on Higgs mass and sparticle spectra consistency.

Contribution

It systematically assesses how various SUSY spectrum generators agree on natural SUSY and string landscape predictions, especially regarding Higgs mass and sparticle spectra.

Findings

SSS generators produce Higgs mass peaks around 125-127 GeV.

Sparticle spectra from SSS are similar to those from Isasugra.

Predicted spectra generally lie beyond current LHC search limits.

Abstract

Models of natural supersymmetry give rise to a weak scale m_{weak}~m_{W,Z,h}~ 100 GeV without any (implausible) finetuning of independent contributions to the weak scale. These models, which exhibit radiatively driven naturalness (RNS), are expected to arise from statistical analysis of the string landscape wherein large soft terms are favored, but subject to a not-too-large value of the derived weak scale in each pocket universe of the greater multiverse. The string landscape picture then predicts, using the Isajet SUSY spectra generator Isasugra, a statistical peak at m_h~ 125 GeV with sparticles generally beyond current LHC search limits. In this paper, we investigate how well these conclusions hold up using other popular spectra generators: SOFTSUSY, SPHENO and SUSPECT (SSS). We built a computer code DEW4SLHA which operates on SUSY Les Houches Accord files to calculate the associated electroweak naturalness measure \Delta_{EW}. The SSS generators tend to yield a Higgs mass peak ~125-127 GeV with a superparticle mass spectra rather similar to that generated by Isasugra. In an Appendix, we include loop corrections to \Delta_{EW} in a more standard notation.