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Dark sector glueballs at the LHC

Austin Batz, Timothy Cohen, David Curtin, Caleb Gemmell, Graham D. Kribs

2024Journal of High Energy Physics17 citationsDOIOpen Access PDF

Abstract

A bstract We study confining dark sectors where the lightest hadrons are glueballs. Such models can provide viable dark matter candidates and appear in some neutral naturalness scenarios. In this work, we introduce a new phenomenological model of dark glueball hadronization inspired by the Lund string model. This enables us to make the most physically-motivated predictions for dark glueball phenomenology at the LHC to date. Our model approximately reproduces the expected thermal distribution of hadron species as an emergent consequence of hadronization dynamics. The ability to predict the production of glueball states heavier than the lightest species significantly expands the reach of long-lived glueball searches in MATHUSLA compared to previous simplified estimates. We also characterize regions of parameter space where emerging and/or semivisible jets could arise from pure-glue dark sectors, thereby providing new benchmark models that motivate searches for these signatures.

Topics & Concepts

GlueballHadronizationParticle physicsPhysicsLarge Hadron ColliderDark matterParameter spacePhenomenology (philosophy)NaturalnessHadronNuclear physicsQuantum chromodynamicsStatisticsPhilosophyMathematicsEpistemologyParticle physics theoretical and experimental studiesDark Matter and Cosmic PhenomenaHigh-Energy Particle Collisions Research
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