Springer : Scalar leptoquarks at the LHC and flavour anomalies: a comparison of pair-production modes at NLO-QCD

Borschensky, Christoph; Kulesza, Anna; Fuks, Benjamin; Jueid, Adil

doi:10.1007/JHEP11(2022)006

Article
Report number	arXiv:2207.02879 ; KIAS-Q22010 ; CTPU-PTC-22-24 ; CERN-TH-2022-106 ; KA-TP-17-2022 ; MS-TP-22-18
Title	Scalar leptoquarks at the LHC and flavour anomalies: a comparison of pair-production modes at NLO-QCD
Author(s)	Borschensky, Christoph (KIT, Karlsruhe, TP) ; Fuks, Benjamin (Paris, LPTHE) ; Jueid, Adil (Korea Inst. Advanced Study, Seoul) ; Kulesza, Anna (Munster U., ITP ; CERN)
Publication	2022-11-02
Imprint	2022-07-06
Number of pages	35
Note	v1: 35 pages, 14 figures and 6 tables. v2: 37 pages, 14 figures and 6 tables, references added and introduction slightly modified. Matches accepted version by JHEP
In:	JHEP 11 (2022) 006
DOI	10.1007/JHEP11(2022)006 (publication)
Subject category	Particle Physics - Phenomenology
Abstract	We analyse scalar leptoquark pair production at the LHC with predictions including $t$-channel lepton exchange contributions up to next-to-leading order (NLO) in QCD. In particular, we calculate NLO-QCD predictions for off-diagonal production channels, {\it i.e.} channels that involve two different leptoquark eigenstates and are driven solely by diagrams involving Standard Model leptons in the $t$-channel at leading order, as opposed to diagonal channels where a pair of the same leptoquark eigenstate is produced. We find that reliable theoretical predictions for both channels require NLO accuracy. The relative importance of the off-diagonal modes depends strongly on the considered scenario. In a generic model involving $R_2$ and $S_3$ leptoquarks, at large values of the Yukawa couplings off-diagonal contributions initiated by valence quarks can be up to an order of magnitude higher than the diagonal production. However, we also find that in phenomenologically viable scenarios addressing the flavour anomalies off-diagonal production is generally negligible, with a few exceptions of 10%--30% of the total rate depending on the treatment of the charm density in the proton.
Copyright/License	publication: © 2022-2024 The Authors (License: CC-BY-4.0), sponsored by SCOAP³ preprint: (License: CC BY 4.0)

$Selection of Feynman diagrams contributing to scalar leptoquark pair production in hadron collisions, both for the diagonal and off-diagonal channel (for which we have chosen the $pp\to R_2^{(+2/3)} S_3^{(+2/3)}$ example). QCD couplings are indicated by a black point, while a grey circle denotes the lepton-quark-leptoquark Yukawa couplings. Born diagrams are shown in the sub-panels (a1)--(a5) for the diagonal case, and (b1) for the off-diagonal one. Virtual correction and real emission diagrams are shown in sub-panels (c1)--(c3) and (d1)--(d3) respectively.$ $Selection of Feynman diagrams contributing to scalar leptoquark pair production in hadron collisions, both for the diagonal and off-diagonal channel (for which we have chosen the $pp\to R_2^{(+2/3)} S_3^{(+2/3)}$ example). QCD couplings are indicated by a black point, while a grey circle denotes the lepton-quark-leptoquark Yukawa couplings. Born diagrams are shown in the sub-panels (a1)--(a5) for the diagonal case, and (b1) for the off-diagonal one. Virtual correction and real emission diagrams are shown in sub-panels (c1)--(c3) and (d1)--(d3) respectively.$ $Total cross sections for the production of a pair of $R_2$ eigenstates as a function of $y = y_{2,12}^{\rm LR} = y_{2,12}^{\rm RL}$ for the three processes $pp\to R_2^{(+2/3)} R_2^{(-2/3)}$ (left), $pp\to R_2^{(+5/3)} R_2^{(-5/3)}$ (middle) and $pp\to R_2^{(\pm 5/3)} R_2^{(\mp 2/3)}$ (right). In the lower panels, we present NLO $K$-factors defined as the ratio of the NLO rates to the LO ones for the MSHT20 and CT18 PDF sets. Our predictions include scale (light error bands) and PDF (darker error bands) uncertainties at NLO (evaluated relatively to the central LO predictions for the $K$-factors).$ Show more plots

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