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Displaced new physics at colliders and the early universe before its first second

Sam Junius

2021VUBIR (Vrije Universiteit Brussel)35 citations

Abstract

A bstract Displaced vertices at colliders, arising from the production and decay of long-lived particles, probe dark matter candidates produced via freeze-in. If one assumes a standard cosmological history, these decays happen inside the detector only if the dark matter is very light because of the relic density constraint. Here, we argue how displaced events could very well point to freeze-in within a non-standard early universe history. Focusing on the cosmology of inflationary reheating, we explore the interplay between the reheating temperature and collider signatures for minimal freeze-in scenarios. Observing displaced events at the LHC would allow to set an upper bound on the reheating temperature and, in general, to gather indirect information on the early history of the universe.

Topics & Concepts

PhysicsDark matterUniverseParticle physicsCosmologyLarge Hadron ColliderColliderStandard Model (mathematical formulation)Physics beyond the Standard ModelTheoretical physicsAstrophysicsHistoryArchaeologyGauge (firearms)Particle physics theoretical and experimental studiesCosmology and Gravitation TheoriesDark Matter and Cosmic Phenomena
Displaced new physics at colliders and the early universe before its first second | Litcius