Diphoton excess, low energy theorem, and the 331 model

Qing Hong Cao; Yandong Liu; Ke Pan Xie; Bin Yan; Dong Ming Zhang

doi:10.1103/PhysRevD.93.075030

Diphoton excess, low energy theorem, and the 331 model

Qing Hong Cao
, Yandong Liu
, Ke Pan Xie
, Bin Yan
, Dong Ming Zhang

Peking University
Collaborative Innovation Center of Quantum Matter

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

We interpret the diphoton anomaly as a heavy scalar H3 in the so-called 331 model. The scalar is responsible for breaking the SU(3)C - SU(3)L - U(1)X gauge symmetry down to the standard model electroweak gauge group. It mainly couples to the standard model gluons and photons through quantum loops involving heavy quarks and leptons. Those quarks and leptons, together with the SM quarks and leptons, form the fundamental representation of the 331 model. We use the low energy theorem to calculate the effective couplings of H3gg, H3γγ, H3ZZ, H3WW and H3Zγ. The analytical results can be applied to new physics models satisfying the low energy theorem. We show that the heavy quark and lepton contribution cannot produce enough diphoton pairs. It is crucial to include the contribution of charged scalars to explain the diphoton excess. The extra neutral Z′ boson could also explain the 2 TeV diboson excess observed at the LHC Run-I.

Original language	English
Article number	075030
Journal	Physical Review D
Volume	93
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevD.93.075030
State	Published - 20 Apr 2016
Externally published	Yes

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title = "Diphoton excess, low energy theorem, and the 331 model",

abstract = "We interpret the diphoton anomaly as a heavy scalar H3 in the so-called 331 model. The scalar is responsible for breaking the SU(3)C - SU(3)L - U(1)X gauge symmetry down to the standard model electroweak gauge group. It mainly couples to the standard model gluons and photons through quantum loops involving heavy quarks and leptons. Those quarks and leptons, together with the SM quarks and leptons, form the fundamental representation of the 331 model. We use the low energy theorem to calculate the effective couplings of H3gg, H3γγ, H3ZZ, H3WW and H3Zγ. The analytical results can be applied to new physics models satisfying the low energy theorem. We show that the heavy quark and lepton contribution cannot produce enough diphoton pairs. It is crucial to include the contribution of charged scalars to explain the diphoton excess. The extra neutral Z′ boson could also explain the 2 TeV diboson excess observed at the LHC Run-I.",

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AU - Cao, Qing Hong

AU - Liu, Yandong

AU - Xie, Ke Pan

AU - Yan, Bin

AU - Zhang, Dong Ming

PY - 2016/4/20

Y1 - 2016/4/20

N2 - We interpret the diphoton anomaly as a heavy scalar H3 in the so-called 331 model. The scalar is responsible for breaking the SU(3)C - SU(3)L - U(1)X gauge symmetry down to the standard model electroweak gauge group. It mainly couples to the standard model gluons and photons through quantum loops involving heavy quarks and leptons. Those quarks and leptons, together with the SM quarks and leptons, form the fundamental representation of the 331 model. We use the low energy theorem to calculate the effective couplings of H3gg, H3γγ, H3ZZ, H3WW and H3Zγ. The analytical results can be applied to new physics models satisfying the low energy theorem. We show that the heavy quark and lepton contribution cannot produce enough diphoton pairs. It is crucial to include the contribution of charged scalars to explain the diphoton excess. The extra neutral Z′ boson could also explain the 2 TeV diboson excess observed at the LHC Run-I.

AB - We interpret the diphoton anomaly as a heavy scalar H3 in the so-called 331 model. The scalar is responsible for breaking the SU(3)C - SU(3)L - U(1)X gauge symmetry down to the standard model electroweak gauge group. It mainly couples to the standard model gluons and photons through quantum loops involving heavy quarks and leptons. Those quarks and leptons, together with the SM quarks and leptons, form the fundamental representation of the 331 model. We use the low energy theorem to calculate the effective couplings of H3gg, H3γγ, H3ZZ, H3WW and H3Zγ. The analytical results can be applied to new physics models satisfying the low energy theorem. We show that the heavy quark and lepton contribution cannot produce enough diphoton pairs. It is crucial to include the contribution of charged scalars to explain the diphoton excess. The extra neutral Z′ boson could also explain the 2 TeV diboson excess observed at the LHC Run-I.

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DO - 10.1103/PhysRevD.93.075030

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Diphoton excess, low energy theorem, and the 331 model

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