Litcius/Paper detail

Invisible and displaced dark matter signatures at Belle II

Michael Duerr, Torben Ferber, Christopher Hearty, Felix Kahlhoefer, Kai Schmidt-Hoberg, Patrick Tunney

2020Journal of High Energy Physics72 citationsDOIOpen Access PDF

Abstract

A bstract 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.

Topics & Concepts

PhysicsDark matterParticle physicsParameter spaceVertex (graph theory)Weakly interacting massive particlesSensitivity (control systems)Dark energySignature (topology)Missing energyPhotonPhysics beyond the Standard ModelMassive particleSimple (philosophy)Theoretical physicsSpace (punctuation)WIMPStandard Model (mathematical formulation)Energy (signal processing)ThermalScalar field dark matterCosmologyLow energyAnnihilationDark Matter and Cosmic PhenomenaParticle physics theoretical and experimental studiesComputational Physics and Python Applications