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W1676814449 abstract "We show that new physics can show up in dileptonic events through its radiative contributions to the dilepton invariant mass, leading to unique monocline features in $m_{ellell}$, as well as the angular distribution of the leptons. We focus in particular on the case of dark matter with scalar messengers coupling it to the quarks and leptons. Consistent thermal models require the dark matter to have masses of 100's GeV and have $gsim 1$ couplings to the Standard Model (SM), implying that radiative corrections to the SM Drell-Yan rate can be sizeable. We consider the case of Majorana, Dirac, and pseudo-Dirac dark matter and show that there are regions of parameter space where the non-existence of a monocline, which starts at roughly twice the dark matter mass, $m_{ellell} sim 2 m_chi$, places the strongest constraint on the model. We make predictions for the sensitivities at the high luminosity 14 TeV LHC as well as a future 100 TeV proton-proton collider. We find that our dilepton signal is most sensitive when the mediator and the dark matter are nearly degenerate and conventional MET-based searches are least sensitive." @default.
W1676814449 created "2016-06-24" @default.
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W1676814449 date "2015-06-08" @default.
W1676814449 modified "2023-10-08" @default.
W1676814449 title "Dark matter signals in dilepton production at hadron colliders" @default.
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W1676814449 doi "https://doi.org/10.1103/physrevd.91.115006" @default.
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