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The electro-weak phase transition at colliders: confronting theoretical uncertainties and complementary channels

Andreas Papaefstathiou, Graham White

2021Journal of High Energy Physics28 citationsDOIOpen Access PDF

Abstract

A bstract We explore and contrast the capabilities of future colliders to probe the nature of the electro-weak phase transition. We focus on the real singlet scalar field extension of the Standard Model, representing the most minimal, yet most elusive, framework that can enable a strong first-order electro-weak phase transition. By taking into account the theoretical uncertainties and employing the powerful complementarity between gauge and Higgs boson pair channels in the searches for new scalar particles, we find that a 100 TeV proton collider has the potential to confirm or falsify a strong first-order transition. Our results hint towards this occurring relatively early in its lifetime. Furthermore, by extrapolating down to 27 TeV, we find that a lower-energy collider may also probe a large fraction of the parameter space, if not all. Such early discoveries would allow for precise measurements of the new phenomena to be obtained at future colliders and would pave the way to definitively verify whether this is indeed the physical remnant of a scalar field that catalyses a strong first-order transition.

Topics & Concepts

PhysicsParticle physicsHiggs bosonScalar (mathematics)Physics beyond the Standard ModelColliderComplementarity (molecular biology)Standard Model (mathematical formulation)Phase transitionScalar fieldElectroweak interactionTheoretical physicsScalar potentialBosonLarge Hadron ColliderSinglet stateGauge bosonGauge (firearms)Focus (optics)Field (mathematics)Gauge theoryEffective field theoryCP violationStatistical physicsPerturbation theory (quantum mechanics)Particle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsInternational Science and Diplomacy
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