Abstract <p> Recently, a second Higgs-like boson <InlineEquation ID="IEq1"> <EquationSource Format="TEX">\(h'\)</EquationSource> </InlineEquation> with a mass near <InlineEquation ID="IEq2"> <EquationSource Format="TEX">\(0.5\)</EquationSource> </InlineEquation> TeV was predicted from a dual holographic model describing the hypothetical strongly coupled sector beyond the Standard Model. We analyze the conditions under which this prediction can be obtained within the framework of more traditional models for describing a strongly coupled field theory—the spectral sum rules and the Nambu–Jona-Lasinio model in the scalar channel. It is shown that the results of both approaches are close and lead to this prediction if their covariant four-momentum cutoff is identified with the unitarity bound on the Higgs boson mass, and also under the assumption that the strongly coupled sector beyond the Standard Model is described by some quantum field theory based on the <InlineEquation ID="IEq3"> <EquationSource Format="TEX">\(SU(2)\)</EquationSource> </InlineEquation> gauge group. We also present additional arguments suggesting that a mass of about <InlineEquation ID="IEq4"> <EquationSource Format="TEX">\(0.5\)</EquationSource> </InlineEquation> TeV would be natural for a heavy analogue of the Higgs boson, if it exists. </p>

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On the hypothesis of a second Higgs boson near 0.5 TeV

  • S. S. Afonin

摘要

Abstract

Recently, a second Higgs-like boson \(h'\) with a mass near \(0.5\) TeV was predicted from a dual holographic model describing the hypothetical strongly coupled sector beyond the Standard Model. We analyze the conditions under which this prediction can be obtained within the framework of more traditional models for describing a strongly coupled field theory—the spectral sum rules and the Nambu–Jona-Lasinio model in the scalar channel. It is shown that the results of both approaches are close and lead to this prediction if their covariant four-momentum cutoff is identified with the unitarity bound on the Higgs boson mass, and also under the assumption that the strongly coupled sector beyond the Standard Model is described by some quantum field theory based on the \(SU(2)\) gauge group. We also present additional arguments suggesting that a mass of about \(0.5\) TeV would be natural for a heavy analogue of the Higgs boson, if it exists.