Loop-induced direct detection signatures from CP-violating scalar mediators

Having so far only indirect evidence for the existence of Dark Matter a plethora of experiments aims at direct detection of Dark Matter through the scattering of Dark Matter particles off atomic nuclei. For the correct interpretation and identification of the underlying nature of the Dark Matter constituents higher-order corrections to the cross section of Dark Matter-nucleon scattering are important, in particular in models where the tree-level cross section is negligibly small. In this work we revisit the electroweak corrections to the dark matter-nucleon scattering cross section in a model with a pseudo Nambu-Goldstone boson as the Dark Matter candidate. Two calculations that already exist in the literature, apply different approaches resulting in different final results for the cross section in some regions of the parameter space leading us to redo the calculation and analyse the two approaches to clarify the situation. We furthermore update the experimental constraints and examine the regions of the parameter space where the cross section is above the neutrino floor but which can only be probed in the far future.

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“…The diagrams in figure 9(a) are calculated using the approach presented in ref. [41] and already applied to the VDM in ref. [29].…”

Section: Gluon Contributionsmentioning

confidence: 99%

Electroweak corrections in a pseudo Nambu-Goldstone Dark Matter model revisited

Glaus

Mühlleitner

Müller

et al. 2020

J. High Energ. Phys.

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“…assumes M A mt such that the mediator can be integrated out before the top quark. As pointed out in a different context in Refs [46,47],. this approach may give incorrect results for smaller mediator masses.…”

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confidence: 91%

Invisible and displaced dark matter signatures at Belle II

Duerr

Ferber

Hearty

et al. 2020

J. High Energ. Phys.

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121

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Many dark matter models generically predict invisible and displaced signatures at Belle II, but even striking events may be missed by the currently implemented search programme because of inefficient trigger algorithms. Of particular interest are final states with a single photon accompanied by missing energy and a displaced pair of electrons, muons, or hadrons. We argue that a displaced vertex trigger will be essential to achieve optimal sensitivity at Belle II. To illustrate this point, we study a simple but well-motivated model of thermal inelastic dark matter in which this signature naturally occurs and show that otherwise inaccessible regions of parameter space can be tested with such a search. We also evaluate the sensitivity of single-photon searches at BaBar and Belle II to this model and provide detailed calculations of the relic density target.

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“…The corresponding cross-section is hence suppressed by the fourth power of the momentum transfer and experimentally relevant only for very light masses of the mediators [20,35,36]. Spin independent DM nucleon interactions, within the reach of, especially, next generation detectors like XENONnT and DARWIN, emerge however at the one loop level [20,21,[37][38][39] (see also [19,40]).…”

Section: Direct Detectionmentioning

confidence: 99%

Comparing 2HDM + scalar and pseudoscalar simplified models at LHC

Arcadi

Busoni

Hügle

et al. 2020

J. High Energ. Phys.

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In this work we compare the current experimental LHC limits of the 2HDM + scalar and pseudoscalar for the tt, mono-Z and mono-h signatures and forecast the reach of future LHC upgrades for the mono-Z channel. Furthermore, we comment on the possibility, in case of a signal detection, to discriminate between the two models. The 2HDM+S and 2HDM+PS are two notable examples of the so-called next generation of Dark Matter Simplified Models. They allow for a renormalizable coupling of fermionic, Standard Model singlet, Dark Matter with a two Higgs doublet sector, through the mixing of the latter with a scalar or pseudoscalar singlet.

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Loop-induced direct detection signatures from CP-violating scalar mediators

Cited by 40 publications

References 82 publications

Electroweak corrections in a pseudo Nambu-Goldstone Dark Matter model revisited

Electroweak corrections in a pseudo Nambu-Goldstone Dark Matter model revisited

Invisible and displaced dark matter signatures at Belle II

Comparing 2HDM + scalar and pseudoscalar simplified models at LHC

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