Simplified dark matter models with two Higgs doublets: I. Pseudoscalar mediators

Published Articles
Report number	arXiv:1701.07427 ; CERN-TH-2017-011 ; DESY-17-010
Title	Simplified dark matter models with two Higgs doublets: I. Pseudoscalar mediators
Related title	Simplified dark matter models with two Higgs doublets: I. Pseudoscalar mediators
Author(s)	Bauer, Martin (U. Heidelberg, ITP) ; Haisch, Ulrich (Oxford U., Theor. Phys. ; CERN) ; Kahlhoefer, Felix (DESY)
Publication	2017-05-25
Imprint	2017-01-25
Number of pages	38
Note	36 pages, 15 figures; v3: matches published version
In:	JHEP 05 (2017) 138
DOI	10.1007/JHEP05(2017)138
Subject category	hep-ex ; Particle Physics - Experiment ; hep-ph ; Particle Physics - Phenomenology
Abstract	We study a new class of renormalisable simplified models for dark matter searches at the LHC that are based on two Higgs doublet models with an additional pseudoscalar mediator. In contrast to the spin-0 simplified models employed in analyses of Run I data these models are self-consistent, unitary and bounds from Higgs physics typically pose no constraints. Predictions for various missing transverse energy ($E_{T, \rm miss}$) searches are discussed and the reach of the 13 TeV LHC is explored. It is found that the proposed models provide a rich spectrum of complementary observables that lead to non-trivial constraints. We emphasise in this context the sensitivity of the $t\bar t + E_{T, \rm miss}$, mono-$Z$ and mono-Higgs channels, which yield stronger limits than mono-jet searches in large parts of the parameter space. Constraints from spin-0 resonance searches, electroweak precision measurements and flavour observables are also derived and shown to provide further important handles to constraint and to test the considered dark matter models.
Copyright/License	License Preprint: © 2017-2024 CERN (License: CC-BY-4.0)

$Assorted diagrams that give rise to a $t \bar t + E_{T, \rm miss}$ (left), $Z+ E_{T, \rm miss}$ (middle) and $h + E_{T, \rm miss}$~(right) signal in the simplified pseudoscalar model considered in our work. The exchanged spin-0 particles are of scalar ($H$) or pseudoscalar ($a, A$) type. Further Feynman graphs that contribute to the different mono-$X$ channels can be found in Figures~\ref{fig:jDMDM} to \ref{fig:WDMDM}.$ $Branching ratios of the lighter pseudoscalar $a$ as a function of its mass for two different choices of $\sin \theta$ and $m_\chi$ as indicated in the headline of the plots. The other relevant parameters have been set to $\tan \beta = 1$, $M_H = M_A = M_{H^\pm} = 750 \, {\rm GeV}$ and $y_\chi = 1$. Notice that for this specific $\tan \beta$ value the branching ratios of the pseudoscalar~$a$ do not depend on the choice of Yukawa sector.$ $Branching ratios of the lighter pseudoscalar $a$ as a function of its mass for two different choices of $\sin \theta$ and $m_\chi$ as indicated in the headline of the plots. The other relevant parameters have been set to $\tan \beta = 1$, $M_H = M_A = M_{H^\pm} = 750 \, {\rm GeV}$ and $y_\chi = 1$. Notice that for this specific $\tan \beta$ value the branching ratios of the pseudoscalar~$a$ do not depend on the choice of Yukawa sector.$ Show more plots

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