Tuning supersymmetric models at the LHC: a comparative analysis at two-loop levelopen access
- Authors
- Ghilencea, D. M.; Lee, H. M.; Park, M.
- Issue Date
- Jul-2012
- Publisher
- SPRINGER
- Keywords
- Supersymmetric Standard Model; Beyond Standard Model; Supersymmetry Breaking; Renormalization Group
- Citation
- JOURNAL OF HIGH ENERGY PHYSICS, no.7
- Journal Title
- JOURNAL OF HIGH ENERGY PHYSICS
- Number
- 7
- URI
- https://scholarworks.bwise.kr/cau/handle/2019.sw.cau/50181
- DOI
- 10.1007/JHEP07(2012)046
- ISSN
- 1126-6708
1029-8479
- Abstract
- We provide a comparative study of the fine tuning amount (Delta) at the two-loop leading log level in supersymmetric models commonly used in SUSY searches at the LHC. These are the constrained MSSM (CMSSM), non-universal Higgs masses models (NUHM1, NUHM2), non-universal gaugino masses model (NUGM) and GUT related gaugino masses models (NUGMd). Two definitions of the fine tuning are used, the first (Delta(max)) measures maximal fine-tuning w.r.t. individual parameters while the second (Delta(q)) adds their contribution in "quadrature". As a direct consequence of two theoretical constraints (the EW minimum conditions), fine tuning (Delta(q)) emerges at the mathematical level as a suppressing factor (effective prior) of the averaged likelihood (L) under the priors, under the integral of the global probability of measuring the data (Bayesian evidence p(D)). For each model, there is little difference between Delta(q), Delta(max) in the region allowed by the data, with similar behaviour as functions of the Higgs, gluino, stop mass or SUSY scale (m(susy) = (m((t) over tilde1) m((t) over tilde2))(1/2)) or dark matter and g-2 constraints. The analysis has the advantage that by replacing any of these mass scales or constraints by their latest bounds one easily infers for each model the value of Delta(q), Delta(max) or vice versa. For all models, minimal fine tuning is achieved for M-higgs near 115 GeV with a Delta(q) approximate to Delta(max) approximate to 10 to 100 depending on the model, and in the CMSSM this is actually a global minimum. Due to a strong (approximate to exponential) dependence of Delta on M-higgs, for a Higgs mass near 125 GeV, the above values of Delta(q) approximate to Delta(max) increase to between 500 and 1000. Possible corrections to these values are briefly discussed.
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