Journal of High Energy Physics (Sep 2024)
Non-universal probes of composite Higgs models: new bounds and prospects for FCC-ee
Abstract
Abstract We study the leading loop-level phenomenology of composite Higgs models via the effective field theory of a strongly interacting light Higgs and top quark (SILH+TQ). We systematically analyze the renormalization group evolution (RGE) of tree-generated operators in the SILH+TQ scenario, finding large mixings of flavor non-universal operators into those affecting electroweak precision observables. We show that these model-independent RG contributions are more important than typical estimates for finite parts. Flavor non-universal effects are completely captured by examining three options for the top mixing: fully composite q L 3 $$ {q}_L^3 $$ , equal compositeness, and fully composite t R . In the most phenomenologically viable case of a fully composite t R , we show that the strongest bound on the natural parameter space comes from next-to-leading log running of the 4-top operator O tt = t ¯ R γ μ t R t ¯ R γ μ t R $$ {\mathcal{O}}_{tt}=\left({\overline{t}}_R{\gamma}_{\mu }{t}_R\right)\left({\overline{t}}_R{\gamma}^{\mu }{t}_R\right) $$ into the Peskin-Takeuchi T parameter. In general, we find that this 2-loop effect allows existing electroweak precision data to give better constraints on 4-top operators than high-energy probes from top production at the LHC. Independent of the top mixing, we find that a future tera-Z machine such as FCC-ee has the potential to probe composite Higgs models up to a scale of m ∗ ≳ 25 TeV, and test the naturalness of the electroweak scale at the ≲ 10−4 level.
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