A. C. O. Santos scite author profile

Dark matter that interacts with the Standard Model by exchanging photons through higher multipole interactions occurs in a wide range of both strongly and weakly coupled hidden sector models. We study the collider detection prospects of these candidates, with a focus on Majorana dark matter that couples through the anapole moment. The study is conducted at the effective field theory level with the mono-Z signature incorporating varying levels of systematic uncertainties at the high-luminosity LHC. The projected collider reach on the anapole moment is then compared to the reach coming from direct detection experiments like LZ. Finally, the analysis is applied to a weakly coupled completion with leptophilic dark matter.

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Lepton flavor violation induced by dark matter

Arcadi

Ferreira

Goertz

et al. 2018

Phys. Rev. D

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Guided by gauge principles we discuss a predictive and falsifiable UV complete model where the Dirac fermion that accounts for the cold dark matter abundance in our Universe induces the lepton flavor violation (LFV) decays μ → eγ and μ → eee as well as μ − e conversion. We explore the interplay between direct dark matter detection, relic density, collider probes and lepton flavor violation to conclusively show that one may have a viable dark matter candidate yielding flavor violation signatures that can be probed in the upcoming experiments. In fact, keeping the dark matter mass at the TeV scale, a sizable LFV signal is possible, while reproducing the correct dark matter relic density and meeting limits from direct-detection experiments.

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Higgs mass and right-handed sneutrino WIMP in a supersymmetric3−3−1model

et al. 2016

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A. C. O. Santos

Collider detection of dark matter electromagnetic anapole moments

Lepton flavor violation induced by dark matter

Higgs mass and right-handed sneutrino WIMP in a supersymmetric3−3−1model

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