Prima Facie Evidence against Spin-Two Higgs Impostors

John Ellis; Verónica Sanz; Tevong You

doi:10.1016/j.physletb.2013.08.007

Prima Facie Evidence against Spin-Two Higgs Impostors

John Ellis, Verónica Sanz, Tevong You

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Abstract

The new particle X recently discovered by the ATLAS and CMS Collaborations is widely expected to have spin zero, but this remains to be determined. The leading alternative is that X has spin two, presumably with graviton-like couplings. We show that measurements of the X particle to pairs of vector bosons constrain such scenarios. In particular, a graviton-like Higgs impostor in scenarios with a warped extra dimension of AdS type is prima facie excluded, principally because they predict too small a ratio between the X couplings to WW and ZZ, compared with that to photons. The data also disfavour universal couplings to pairs of photons and gluons, which would be predicted in a large class of graviton-like models.

Original language	English
Article number	N/A
Pages (from-to)	244-250
Number of pages	7
Journal	Physics Letters B
Volume	726
Issue number	1-3
Early online date	9 Aug 2013
DOIs	https://doi.org/10.1016/j.physletb.2013.08.007
Publication status	Published - 7 Oct 2013

Keywords

hep-ph
hep-ex

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10.1016/j.physletb.2013.08.007

Prima Facie Evidence against Spin-Two Higgs ImpostorsSubmitted manuscript, 548 KB

http://arxiv.org/abs/1211.3068

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title = "Prima Facie Evidence against Spin-Two Higgs Impostors",

abstract = "The new particle X recently discovered by the ATLAS and CMS Collaborations is widely expected to have spin zero, but this remains to be determined. The leading alternative is that X has spin two, presumably with graviton-like couplings. We show that measurements of the X particle to pairs of vector bosons constrain such scenarios. In particular, a graviton-like Higgs impostor in scenarios with a warped extra dimension of AdS type is prima facie excluded, principally because they predict too small a ratio between the X couplings to WW and ZZ, compared with that to photons. The data also disfavour universal couplings to pairs of photons and gluons, which would be predicted in a large class of graviton-like models.",

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AU - Sanz, Verónica

AU - You, Tevong

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N2 - The new particle X recently discovered by the ATLAS and CMS Collaborations is widely expected to have spin zero, but this remains to be determined. The leading alternative is that X has spin two, presumably with graviton-like couplings. We show that measurements of the X particle to pairs of vector bosons constrain such scenarios. In particular, a graviton-like Higgs impostor in scenarios with a warped extra dimension of AdS type is prima facie excluded, principally because they predict too small a ratio between the X couplings to WW and ZZ, compared with that to photons. The data also disfavour universal couplings to pairs of photons and gluons, which would be predicted in a large class of graviton-like models.

AB - The new particle X recently discovered by the ATLAS and CMS Collaborations is widely expected to have spin zero, but this remains to be determined. The leading alternative is that X has spin two, presumably with graviton-like couplings. We show that measurements of the X particle to pairs of vector bosons constrain such scenarios. In particular, a graviton-like Higgs impostor in scenarios with a warped extra dimension of AdS type is prima facie excluded, principally because they predict too small a ratio between the X couplings to WW and ZZ, compared with that to photons. The data also disfavour universal couplings to pairs of photons and gluons, which would be predicted in a large class of graviton-like models.

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JF - Physics Letters B

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ER -

Prima Facie Evidence against Spin-Two Higgs Impostors

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Keywords

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