The impact of XENON100 and the LHC on Supersymmetric Dark Matter

Keith A. Olive

arXiv:1202.2324·hep-ph·June 4, 2015

The impact of XENON100 and the LHC on Supersymmetric Dark Matter

Keith A. Olive

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TL;DR

This paper examines how recent LHC and XENON100 experimental results influence the prospects for detecting supersymmetric dark matter, highlighting the interplay between collider and direct detection constraints.

Contribution

It provides a comparative analysis of collider and direct detection data and their combined implications for supersymmetric dark matter models.

Findings

01

XENON100 results significantly constrain supersymmetric dark matter parameter space.

02

LHC data impacts the viable regions for supersymmetric particles.

03

Combined data narrows down the most promising detection scenarios.

Abstract

The effect of 2010 and 2011 LHC data are discussed in connection to the potential for the direct detection of supersymmetric dark matter. The impact of the recent XENON100 results are contrasted to these predictions.

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