tWH associated production at the LHC

Demartin, Federico; Maier, B.; Maltoni, Fabio; Mawatari, Kentarou; Zaro, Marco

doi:10.1140/epjc/s10052-017-4601-7

Cited by 93 publications

(80 citation statements)

References 66 publications

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“…In the latter spin-2 case, new physics have also been previously explored in a semi-automated framework (in the sense where the virtual matrix elements are provided externally) based on MG5 aMC [174][175][176]. Various BSM setups in which the Higgs sector differs from the SM one have been released, such as the two-Higgs-doublet model [177,178], the Georgi-Machacek model [179], the Higgs characterisation model [180][181][182][183][184], and the SM effective field theory including dimension-six operators [185]. Higherdimension operators either affecting the sector of the top quark [186][187][188][189][190][191], dijet production [192], or Z-boson production [193] can be added as well.…”

Section: Simulations and Cross Section Calculations In Susymentioning

confidence: 99%

“…We also point out that in the NLO+PS simulations of ref. [184] a third scenario has been considered (dubbed DR2 there, and originally introduced in ref. [116] within a fixed-order calculation), in which one keeps the second term on the r.h.s.…”

Section: General Featuresmentioning

confidence: 99%

“…We describe those implemented in MG5 aMC below, and point out that previous results in the DS approach [142,143,148,149,215,[223][224][225] have been obtained with a given (f, P) pair (with the exception of ref. [184], where two different forms of f have been compared).…”

Section: General Featuresmentioning

confidence: 99%

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Automated simulations beyond the Standard Model: supersymmetry

Frixione

Fuks

Hirschi

et al. 2019

J. High Energ. Phys.

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The MadGraph5 aMC@NLO framework aims to automate all types of leading-and next-to-leading-order-accurate simulations for any user-defined model that stems from a renormalisable Lagrangian. In this paper, we present all of the key ingredients of such models in the context of supersymmetric theories. In order to do so, we extend the FeynRules package by giving it the possibility of dealing with different renormalisation options that are relevant to supersymmetric models. We also show how to deal with the problem posed by the presence of narrow resonances, thus generalising the so-called on-shell subtraction approaches. We extensively compare our total rate results with those of both Prospino2 and Resummino, and present illustrative applications relevant to the 13 TeV LHC, both at the total-rate and differential levels. The computer programs that we have used to obtain the predictions presented here are all publicly available. arXiv:1907.04898v1 [hep-ph] 10 Jul 2019 7 Conclusions 47 A Conventions for one-point and two-point functions 49 B The MoGRe package 50 B.1 The main method MoGRe$Renormalize and its options 50 B.2 Simplifying the procedure 51 B.3 Restrictions 52 B.4 Specifying the renormalisation scheme 52 B.5 Clearing a renormalisation scheme 52 B.6 Technical details on the functioning of the method 53 C Decoupling of heavy SUSY particles in MG5 aMC 55 -1 -which allows for the cancellation of chiral anomalies and to generate masses for all up-type and down-type particles.

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Section: Simulations and Cross Section Calculations In Susymentioning

confidence: 99%

Section: General Featuresmentioning

confidence: 99%

See 1 more Smart Citation

Automated simulations beyond the Standard Model: supersymmetry

Frixione

Fuks

Hirschi

et al. 2019

J. High Energ. Phys.

Self Cite

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“…Most of this is based on the database release DB 19.06 (June 2019). Three ATLAS results (HIGG-2017-14, HIGG-2016-10 and HIGG-2018-54) were added to this during the peer-review process, so that the current latest version is DB 19…”

Section: Atlas and Cms Results Included In The Database Updatementioning

confidence: 99%

Constraining new physics from Higgs measurements with Lilith: update to LHC Run 2 results

Kraml

Loc

Nhung³

et al. 2019

SciPost Phys.

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Lilith is a public Python library for constraining new physics from Higgs signal strength measurements. We here present version 2.0 of Lilith together with an updated XML database which includes the current ATLAS and CMS Run 2 Higgs results for 36 fb −1 . Both the code and the database were extended from the ordinary Gaussian approximation employed in Lilith-1.1 to using variable Gaussian and Poisson likelihoods. Moreover, Lilith can now make use of correlation matrices of arbitrary dimension. We provide detailed validations of the implemented experimental results as well as a status of global fits for reduced Higgs couplings, Two-Higgs-doublet models of Type I and Type II, and invisible Higgs decays. Lilith-2.0 is available on GitHub and ready to be used to constrain a wide class of new physics scenarios. arXiv:1908.03952v2 [hep-ph] 4 Oct 20191 For a discussion of the use and usability of signal strength results, and recommendations on their presentation, see [3].2 When µ(X, Y ) is not directly available, µ = effX,Y × µ(X, Y ) is used, introducing appropriate efficiency factors effX,Y . For inclusive combinations of production channels for the same Y , the efficiencies become effX = σ SM (X)/ σ SM (X).3 In other words, the Lagrangian has the same tensor structure as the SM, see e.g. the discussion in [3].

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“…The dominant production mode at the LHC is in the t-channel, while the s-channel mechanism has a very small cross-section (σ s tH ≃ 3 fb). A third production mechanism is tHW production, with a cross-section σ tHW ≃ 20 fb [58,59]. In what follows, I will focus on the t-channel production mechanism.…”

Section: What Can We Learn From Th?mentioning

confidence: 99%