Determining the shape of the Higgs potential at future colliders

Although the Higgs boson has been discovered, its self-couplings are poorly constrained. This leaves the nature of the Higgs boson undetermined. Motivated by different Higgs potential scenarios other than the Landau-Ginzburg type in the standard model, we systematically organize various new physics...

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Veröffentlicht in:	Physical review. D 2020-04, Vol.101 (7), p.1, Article 075023
Hauptverfasser:	Agrawal, Pankaj, Saha, Debashis, Xu, Ling-Xiao, Yu, Jiang-Hao, Yuan, C.-P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Couplings Higgs bosons Large Hadron Collider Protons Quarks Superconducting supercolliders
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creator	Agrawal, Pankaj Saha, Debashis Xu, Ling-Xiao Yu, Jiang-Hao Yuan, C.-P.
description	Although the Higgs boson has been discovered, its self-couplings are poorly constrained. This leaves the nature of the Higgs boson undetermined. Motivated by different Higgs potential scenarios other than the Landau-Ginzburg type in the standard model, we systematically organize various new physics scenarios-elementary Higgs, Nambu-Goldstone Higgs, Coleman-Weinberg Higgs, and tadpole-induced Higgs, etc. We find that double-Higgs production at the 27 TeV high-energy LHC can be used to discriminate different Higgs potential scenarios, while it is necessary to use triple-Higgs production at a future 100 TeV proton-proton collider to fully determine the shape of the Higgs potential.
doi_str_mv	10.1103/PhysRevD.101.075023
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subjects	Couplings Higgs bosons Large Hadron Collider Protons Quarks Superconducting supercolliders
title	Determining the shape of the Higgs potential at future colliders
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