Multi-Z′ signatures of spontaneously broken local U(1)′ symmetry

Takaaki Nomura; Kei Yagyu

doi:10.1103/PhysRevD.111.015034

Multi-Z′ signatures of spontaneously broken local U(1)′ symmetry

Takaaki Nomura, Kei Yagyu

物理学科

研究成果: Article › 査読

2 被引用数 (Scopus)

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We discuss multi-Z′ signatures coming from decays of Higgs bosons in models with a spontaneously broken U(1)′ symmetry, which can be observed as "lepton jets"or multilepton final states depending on the mass range of new bosons. We consider anomaly-free U(1)′ models without introducing new fermions except for right-handed neutrinos, in which the Higgs sector is composed of an isospin doublet and a singlet fields with zero and nonzero U(1)′ charges, respectively. The multi-Z′ signatures can then be obtained via the decays of the discovered (extra) Higgs boson h (φ), i.e., h→Z′Z′, φ→Z′Z′, and/or h→φφ→4Z′ as far as kinematically allowed. We give the upper limit on the branching ratios of h into Z′Z′ and 4Z′ from the current experimental data in each model. We also show the deviation in the hhh coupling from the standard model prediction at one-loop level, and find that its amount is typically smaller than 1%.

本文言語	English
論文番号	015034
ジャーナル	Physical Review D
巻	111
号	1
DOI	https://doi.org/10.1103/PhysRevD.111.015034
出版ステータス	Published - 1 1月 2025

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abstract = "We discuss multi-Z′ signatures coming from decays of Higgs bosons in models with a spontaneously broken U(1)′ symmetry, which can be observed as {"}lepton jets{"}or multilepton final states depending on the mass range of new bosons. We consider anomaly-free U(1)′ models without introducing new fermions except for right-handed neutrinos, in which the Higgs sector is composed of an isospin doublet and a singlet fields with zero and nonzero U(1)′ charges, respectively. The multi-Z′ signatures can then be obtained via the decays of the discovered (extra) Higgs boson h (φ), i.e., h→Z′Z′, φ→Z′Z′, and/or h→φφ→4Z′ as far as kinematically allowed. We give the upper limit on the branching ratios of h into Z′Z′ and 4Z′ from the current experimental data in each model. We also show the deviation in the hhh coupling from the standard model prediction at one-loop level, and find that its amount is typically smaller than 1\%.",

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N2 - We discuss multi-Z′ signatures coming from decays of Higgs bosons in models with a spontaneously broken U(1)′ symmetry, which can be observed as "lepton jets"or multilepton final states depending on the mass range of new bosons. We consider anomaly-free U(1)′ models without introducing new fermions except for right-handed neutrinos, in which the Higgs sector is composed of an isospin doublet and a singlet fields with zero and nonzero U(1)′ charges, respectively. The multi-Z′ signatures can then be obtained via the decays of the discovered (extra) Higgs boson h (φ), i.e., h→Z′Z′, φ→Z′Z′, and/or h→φφ→4Z′ as far as kinematically allowed. We give the upper limit on the branching ratios of h into Z′Z′ and 4Z′ from the current experimental data in each model. We also show the deviation in the hhh coupling from the standard model prediction at one-loop level, and find that its amount is typically smaller than 1%.

AB - We discuss multi-Z′ signatures coming from decays of Higgs bosons in models with a spontaneously broken U(1)′ symmetry, which can be observed as "lepton jets"or multilepton final states depending on the mass range of new bosons. We consider anomaly-free U(1)′ models without introducing new fermions except for right-handed neutrinos, in which the Higgs sector is composed of an isospin doublet and a singlet fields with zero and nonzero U(1)′ charges, respectively. The multi-Z′ signatures can then be obtained via the decays of the discovered (extra) Higgs boson h (φ), i.e., h→Z′Z′, φ→Z′Z′, and/or h→φφ→4Z′ as far as kinematically allowed. We give the upper limit on the branching ratios of h into Z′Z′ and 4Z′ from the current experimental data in each model. We also show the deviation in the hhh coupling from the standard model prediction at one-loop level, and find that its amount is typically smaller than 1%.

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Multi-Z′ signatures of spontaneously broken local U(1)′ symmetry

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