Where is SUSY?

C. Beskidt (1); W. de Boer (1); D. I. Kazakov (2,3); F. Ratnikov (1,3); ((1) Karlsruhe Institute of Technology; Germany; (2) Bogoliubov Laboratory of; Theoretical Physics; JINR; Dubna; Russia; (3) ITEP; Moscow; Russia)

arXiv:1202.3366·hep-ph·June 4, 2015

Where is SUSY?

C. Beskidt (1), W. de Boer (1), D. I. Kazakov (2,3), F. Ratnikov (1,3), ((1) Karlsruhe Institute of Technology, Germany, (2) Bogoliubov Laboratory of, Theoretical Physics, JINR, Dubna, Russia, (3) ITEP, Moscow, Russia)

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TL;DR

This paper demonstrates how combined collider and underground dark matter searches constrain supersymmetry, excluding certain gluino and LSP mass ranges within the CMSSM model.

Contribution

It provides a combined analysis of collider and dark matter search data within the CMSSM, highlighting the complementarity of these methods.

Findings

01

Gluinos below 1 TeV are excluded.

02

LSP masses below 160 GeV are excluded.

03

Combined data constrains supersymmetric parameter space.

Abstract

The direct searches for Superymmetry at colliders can be complemented by direct searches for dark matter (DM) in underground experiments, if one assumes the Lightest Supersymmetric Particle (LSP) provides the dark matter of the universe. It will be shown that within the Constrained minimal Supersymmetric Model (CMSSM) the direct searches for DM are complementary to direct LHC searches for SUSY and Higgs particles using analytical formulae. A combined excluded region from LHC, WMAP and XENON100 will be provided, showing that within the CMSSM gluinos below 1 TeV and LSP masses below 160 GeV are excluded (m_{1/2} > 400 GeV) independent of the squark masses.

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