Supersymmetry, Naturalness, and Light Higgsinos

Abstract

We compare and contrast three different sensitivity measures, EW-1, HS-1 and BG-1 that have been used in discussions of fine-tuning. We argue that though not a fine-tuning measure, EW, which is essentially determined by the particle spectrum, is important because EW-1 quantifies the minimum fine-tuning present in any theory with a specified spectrum. We emphasize the critical role of incorporating correlations between various model parameters in discussions of fine-tuning. We provide toy examples to show that if we can find high scale theories with specific correlations amongst parameters, the value of the traditional fine-tuning measure BG-1 (which differs significantly from HS-1 only when these correlations are important) would be close to EW-1. We then set up the radiatively driven natural SUSY framework that we advocate for phenomenological analyses of natural models of supersymmetry, and review the implications of naturalness for LHC and ILC searches for SUSY as well as for searches for SUSY dark matter.