Composite Higgs at high transverse momentum

Banfi, Andrea; Ketaiam, Wissarut; Kvedaraitė, Sandra

doi:10.1007/jhep01(2020)089

Cited by 5 publications

(10 citation statements)

References 81 publications

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“…A full exploitation of such measurements requires an unprecedented level of precision in the theoretical description of the relevant observables. In this context, a prominent role is played by kinematic distributions of the Higgs boson and the accompanying QCD radiation, which are sensitive to potential new-physics effects, such as modifications of light-quark Yukawa couplings [4,5], or heavy new-physics states [6][7][8][9][10][11]. Experimental analyses of Higgs processes typically categorize the collected events in jet bins, according to the different number of jets-collimated bunches of hadrons in the final state-produced in association with the Higgs boson.…”

mentioning

confidence: 99%

“…The corrections (10) and (11) describe the aforementioned effects for a single pair of emissions. At NNLL, all remaining emissions can be considered to be far in angle from the pair k a , k b , and therefore they never get clustered with the jets resulting from Eqs.…”

mentioning

confidence: 99%

“…At NNLL, all remaining emissions can be considered to be far in angle from the pair k a , k b , and therefore they never get clustered with the jets resulting from Eqs. (10) and (11). As a final step towards a NNLL prediction, one must account for non-soft collinear emissions off the initial-state particles.…”

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confidence: 99%

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Higgs Transverse Momentum with a Jet Veto: A Double-Differential Resummation

2020

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confidence: 99%

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confidence: 99%

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Higgs Transverse Momentum with a Jet Veto: A Double-Differential Resummation

2020

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“…It is well known that in composite Higgs models this effective coupling is modified due to the pseudo-Goldstone nature of the Higgs, and that the correction depends strongly on the form of the couplings to the colored top-partners. This has been studied both in the 4D [63][64][65] and 5D [66] contexts where the results match once one properly considers the presence of all relevant top-partners. Here we will consider the effective description of our holographic top sector, in which the left-handed top quark resides in an 8 of SO(8), the righthanded top quark resides in a singlet, and vector-like top-partners appear both in the 8 and in the singlet.…”

Section: The Higgs Coupling To Gluonsmentioning

confidence: 98%

Dilaton portal in strongly interacting twin Higgs models

Ahmed

Najjari

2020

J. High Energ. Phys.

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We consider a strongly interacting twin Higgs (SITH) model where an ultraviolet completion of twin Higgs mechanism is realized by a strongly coupled approximately scale invariant theory. Besides the Standard Model (SM) and twin sectors, the low energy effective theory contains a relatively light scalar called a dilaton -the pseudo Goldstone boson of spontaneously broken scale invariance. The dilaton provides a unique portal between the SM and twin sectors whose phenomenology could provide an important probe of the twin Higgs mechanism. As a concrete example, we consider a holographic twin Higgs model where the role of the dilaton is played by the radion. The phenomenology of this model is fully determined by a few parameters and our analysis concludes that at the HL-LHC (14 TeV) and HE-LHC (27 TeV) with 3000/fb most of the natural parameter space can be probed.

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“…The top-partner can also be considered in the explicit composite Higgs models of Ref. [27], all with finite f . Four different models are implemented, M1 5 , M1 14 , M4 5 , and M4 14 , which modify the Yukawa coupling factors in the following way:…”

Section: Relevant Options For Process: Hmentioning

confidence: 99%

H1jet, a fast program to compute transverse momentum distributions

Lind

Banfi

2021

Eur. Phys. J. C

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We present H1jet, a fast code that computes the total cross section and differential distribution in the transverse momentum of a colour singlet. In its current version, the program implements only leading-order $$2\rightarrow 1$$ 2 → 1 and $$2\rightarrow 2$$ 2 → 2 processes, but could be extended to higher orders. We discuss the processes implemented in H1jet, give detailed instructions on how to implement new processes, and perform comparisons to existing codes. This tool, mainly designed for theorists, can be fruitfully used to assess deviations of selected new physics models from the Standard Model behaviour, as well as to quickly obtain distributions of relevance for Standard Model phenomenology.

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Composite Higgs at high transverse momentum

Cited by 5 publications

References 81 publications

Higgs Transverse Momentum with a Jet Veto: A Double-Differential Resummation

Higgs Transverse Momentum with a Jet Veto: A Double-Differential Resummation

Dilaton portal in strongly interacting twin Higgs models

H1jet, a fast program to compute transverse momentum distributions

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