Light stops, blind spots, and isospin violation in the MSSM

Andreas Crivellin; Martin Hoferichter; Massimiliano Procura; Lewis C. Tunstall

doi:10.1007/JHEP07(2015)129

Light stops, blind spots, and isospin violation in the MSSM

Andreas Crivellin (Corresponding author)
, Martin Hoferichter
, Massimiliano Procura
, Lewis C. Tunstall

Particle Physics

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

In the framework of the MSSM, we examine several simplified models where only a few superpartners are light. This allows us to study WIMP-nucleus scattering in terms of a handful of MSSM parameters and thereby scrutinize their impact on dark matter direct-detection experiments. Focusing on spin-independent WIMP-nucleon scattering, we derive simplified, analytic expressions for the Wilson coefficients associated with Higgs and squark exchange. We utilize these results to study the complementarity of constraints due to direct-detection, flavor, and collider experiments. We also identify parameter configurations that produce (almost) vanishing cross sections. In the proximity of these so-called blind spots, we find that the amount of isospin violation may be much larger than typically expected in the MSSM. This feature is a generic property of parameter regions where cross sections are suppressed, and highlights the importance of a careful analysis of the nucleon matrix elements and the associated hadronic uncertainties. This becomes especially relevant once the increased sensitivity of future direct-detection experiments corners the MSSM into these regions of parameter space.

Original language	English
Article number	129
Number of pages	43
Journal	Journal of High Energy Physics
Volume	2015
Issue number	7
DOIs	https://doi.org/10.1007/JHEP07(2015)129
Publication status	Published - 23 Jul 2015

Funding

We thank Ross Young and Joel Giedt for useful correspondence regarding [99], Ahmed Ismail and Thomas Rizzo for providing us with details of their pMSSM benchmark models [164], Genevieve Belanger and Alexander Pukhov for correspondence concerning MICROMEGAs [67], and Xavier Garcia i Tormo and DingYu Shao for useful discussions. Financial support by BMBF ARCHES, the Helmholtz Alliance HA216/EMMI, and the Swiss National Science Foundation (SNF) is gratefully acknowledged. A.C. is supported by a Marie Curie Intra-European Fellowship of the European Community's 7th Framework Programme under contract number (PIEF-GA-2012-326948).

Austrian Fields of Science 2012

103034 Particle physics

Keywords

Supersymmetry Phenomenology
SUPERSYMMETRIC DARK-MATTER
ENERGY-MOMENTUM-TENSOR
LHC RUN 1
STANDARD MODEL
MUON G-2
SYMMETRY-BREAKING
MAGNETIC-MOMENT
LEADING ORDER
HIGGS-BOSON
MASS MATRIX
Supersymmetry phenomenology

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10.1007/JHEP07(2015)129

http://arxiv.org/abs/1503.03478

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title = "Light stops, blind spots, and isospin violation in the MSSM",

abstract = "In the framework of the MSSM, we examine several simplified models where only a few superpartners are light. This allows us to study WIMP-nucleus scattering in terms of a handful of MSSM parameters and thereby scrutinize their impact on dark matter direct-detection experiments. Focusing on spin-independent WIMP-nucleon scattering, we derive simplified, analytic expressions for the Wilson coefficients associated with Higgs and squark exchange. We utilize these results to study the complementarity of constraints due to direct-detection, flavor, and collider experiments. We also identify parameter configurations that produce (almost) vanishing cross sections. In the proximity of these so-called blind spots, we find that the amount of isospin violation may be much larger than typically expected in the MSSM. This feature is a generic property of parameter regions where cross sections are suppressed, and highlights the importance of a careful analysis of the nucleon matrix elements and the associated hadronic uncertainties. This becomes especially relevant once the increased sensitivity of future direct-detection experiments corners the MSSM into these regions of parameter space.",

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AU - Tunstall, Lewis C.

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AB - In the framework of the MSSM, we examine several simplified models where only a few superpartners are light. This allows us to study WIMP-nucleus scattering in terms of a handful of MSSM parameters and thereby scrutinize their impact on dark matter direct-detection experiments. Focusing on spin-independent WIMP-nucleon scattering, we derive simplified, analytic expressions for the Wilson coefficients associated with Higgs and squark exchange. We utilize these results to study the complementarity of constraints due to direct-detection, flavor, and collider experiments. We also identify parameter configurations that produce (almost) vanishing cross sections. In the proximity of these so-called blind spots, we find that the amount of isospin violation may be much larger than typically expected in the MSSM. This feature is a generic property of parameter regions where cross sections are suppressed, and highlights the importance of a careful analysis of the nucleon matrix elements and the associated hadronic uncertainties. This becomes especially relevant once the increased sensitivity of future direct-detection experiments corners the MSSM into these regions of parameter space.

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KW - SYMMETRY-BREAKING

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KW - MASS MATRIX

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JF - Journal of High Energy Physics

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M1 - 129

ER -

Light stops, blind spots, and isospin violation in the MSSM

Abstract

Funding

Austrian Fields of Science 2012

Keywords

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