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How large can the light quark Yukawa couplings be?

Barbara Anna Erdelyi, Ramona Groeber, Nudžeim Selimović

2025Journal of High Energy Physics11 citationsDOIOpen Access PDF

Abstract

A bstract We investigate models that can induce significant modifications to the couplings of first- and second-generation quarks with Higgs bosons. Specifically, we identify all simplified models featuring two vector-like quark states which can lead to substantial enhancements in these couplings. In addition, these models generate operators in Standard Model Effective Field Theory, both at tree-level and one-loop, that are constrained by electroweak precision and Higgs data. We show how to evade constraints from flavour physics and consider direct searches for vector-like quarks. Ultimately, we demonstrate that viable ultraviolet models can be found with first-generation quark Yukawa couplings enhanced by several hundred times their Standard Model value, while the Higgs couplings to charm (strange) quarks can be increased by factors of a few (few tens). Given the importance of electroweak precision data in constraining these models, we also discuss projections for future measurements at the Tera- Z FCC-ee machine.

Topics & Concepts

PhysicsYukawa potentialParticle physicsQuarkTop quark condensateTop quarkUp quarkQuantum electrodynamicsBottom quarkTheoretical physicsParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research
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