Direct detection of dark matter: Precision predictions in a simplified model framework

Direct detection of dark matter: Precision predictions in a simplified model framework

Abstract We present a calculation of the next-to-leading order QCD corrections for the scattering of Dark Matter particles off nucleons in the framework of simplified models with s- and t-channel mediators. These results are matched to the Wilson coefficients and operators of an effective field theo...

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Main Authors: Christoph Borschensky, Gabriele Coniglio, Barbara Jäger, Josef Jochum, Vincent Schipperges
Format: Article
Language:English
Published: SpringerOpen 2021-01-01
Series:European Physical Journal C: Particles and Fields
Online Access:https://doi.org/10.1140/epjc/s10052-020-08795-x
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spelling doaj-6abfcd82740146a59e0817326efd52b12021-01-24T12:41:09ZengSpringerOpenEuropean Physical Journal C: Particles and Fields1434-60441434-60522021-01-0181111610.1140/epjc/s10052-020-08795-xDirect detection of dark matter: Precision predictions in a simplified model frameworkChristoph Borschensky0Gabriele Coniglio1Barbara Jäger2Josef Jochum3Vincent Schipperges4University of TübingenUniversity of TübingenUniversity of TübingenUniversity of TübingenUniversity of TübingenAbstract We present a calculation of the next-to-leading order QCD corrections for the scattering of Dark Matter particles off nucleons in the framework of simplified models with s- and t-channel mediators. These results are matched to the Wilson coefficients and operators of an effective field theory that is generally used for the presentation of experimental results on spin-independent and spin-dependent direct detection rates. Detailed phenomenological studies illustrate the complementary reach of collider searches for Dark Matter and the direct detection experiments CRESST and XENON. In the case of cancellation effects in the tree-level contributions, one-loop corrections can have a particularly large impact on exclusion limits in the case of combined $$s + t$$ s + t -channel models.https://doi.org/10.1140/epjc/s10052-020-08795-x
collection DOAJ
language English
format Article
sources DOAJ
author Christoph Borschensky
Gabriele Coniglio
Barbara Jäger
Josef Jochum
Vincent Schipperges
spellingShingle Christoph Borschensky
Gabriele Coniglio
Barbara Jäger
Josef Jochum
Vincent Schipperges
Direct detection of dark matter: Precision predictions in a simplified model framework
European Physical Journal C: Particles and Fields
author_facet Christoph Borschensky
Gabriele Coniglio
Barbara Jäger
Josef Jochum
Vincent Schipperges
author_sort Christoph Borschensky
title Direct detection of dark matter: Precision predictions in a simplified model framework
title_short Direct detection of dark matter: Precision predictions in a simplified model framework
title_full Direct detection of dark matter: Precision predictions in a simplified model framework
title_fullStr Direct detection of dark matter: Precision predictions in a simplified model framework
title_full_unstemmed Direct detection of dark matter: Precision predictions in a simplified model framework
title_sort direct detection of dark matter: precision predictions in a simplified model framework
publisher SpringerOpen
series European Physical Journal C: Particles and Fields
issn 1434-6044
1434-6052
publishDate 2021-01-01
description Abstract We present a calculation of the next-to-leading order QCD corrections for the scattering of Dark Matter particles off nucleons in the framework of simplified models with s- and t-channel mediators. These results are matched to the Wilson coefficients and operators of an effective field theory that is generally used for the presentation of experimental results on spin-independent and spin-dependent direct detection rates. Detailed phenomenological studies illustrate the complementary reach of collider searches for Dark Matter and the direct detection experiments CRESST and XENON. In the case of cancellation effects in the tree-level contributions, one-loop corrections can have a particularly large impact on exclusion limits in the case of combined $$s + t$$ s + t -channel models.
url https://doi.org/10.1140/epjc/s10052-020-08795-x
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AT barbarajager directdetectionofdarkmatterprecisionpredictionsinasimplifiedmodelframework
AT josefjochum directdetectionofdarkmatterprecisionpredictionsinasimplifiedmodelframework
AT vincentschipperges directdetectionofdarkmatterprecisionpredictionsinasimplifiedmodelframework
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