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  • Publication
    Modelling and computational improvements to the simulation of single vector-boson plus jet processes for the ATLAS experiment
    (2022-08-01)
    Aad, G.
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    Abbott, B.
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    Abbott, D. C.
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    Abed Abud, A.
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    Abeling, K.
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    Abhayasinghe, D. K.
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    Abidi, S. H.
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    Aboulhorma, A.
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    Abramowicz, H.
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    Abreu, H.
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    Abulaiti, Y.
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    Abusleme Hoffman, A. C.
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    Acharya, B. S.
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    Achkar, B.
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    Adam, L.
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    Adam Bourdarios, C.
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    Adamczyk, L.
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    Adamek, L.
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    Addepalli, S. V.
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    Adelman, J.
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    Adiguzel, A.
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    Adorni, S.
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    Adye, T.
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    Affolder, A. A.
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    Afik, Y.
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    Agapopoulou, C.
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    Agaras, M. N.
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    Agarwala, J.
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    Aggarwal, A.
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    Agheorghiesei, C.
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    Aguilar-Saavedra, J. A.
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    Ahmad, A.
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    Ahmadov, F.
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    Ahmed, W. S.
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    Ai, X.
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    Aielli, G.
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    Aizenberg, I.
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    Akbiyik, M.
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    Åkesson, T. P.A.
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    Akimov, A. V.
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    Al Khoury, K.
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    Alberghi, G. L.
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    Albert, J.
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    Albicocco, P.
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    Alconada Verzini, M. J.
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    Alderweireldt, S.
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    Aleksa, M.
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    Aleksandrov, I. N.
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    Alexa, C.
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    Alexopoulos, T.
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    Alfonsi, A.
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    Alfonsi, F.
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    Alhroob, M.
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    Ali, B.
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    Ali, S.
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    Aliev, M.
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    Alimonti, G.
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    Allaire, C.
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    Allbrooke, B. M.M.
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    Allport, P. P.
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    Aloisio, A.
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    Alonso, F.
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    Alpigiani, C.
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    Alunno Camelia, E.
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    Alvarez Estevez, M.
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    Alviggi, M. G.
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    Amaral Coutinho, Y.
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    Ambler, A.
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    Ambroz, L.
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    Amelung, C.
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    Amidei, D.
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    Amor Dos Santos, S. P.
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    Amoroso, S.
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    Amos, K. R.
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    Amrouche, C. S.
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    Ananiev, V.
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    Anastopoulos, C.
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    Andari, N.
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    Andeen, T.
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    Anders, J. K.
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    Andrean, S. Y.
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    Andreazza, A.
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    Angelidakis, S.
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    Angerami, A.
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    Anisenkov, A. V.
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    Annovi, A.
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    Antel, C.
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    Anthony, M. T.
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    Antipov, E.
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    Antonelli, M.
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    Antrim, D. J.A.
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    Anulli, F.
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    Aoki, M.
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    Aparisi Pozo, J. A.
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    Aparo, M. A.
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    C. M. Robles Guajardo
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    This paper presents updated Monte Carlo configurations used to model the production of single electroweak vector bosons (W, Z/γ∗) in association with jets in proton-proton collisions for the ATLAS experiment at the Large Hadron Collider. Improvements pertaining to the electroweak input scheme, parton-shower splitting kernels and scale-setting scheme are shown for multi-jet merged configurations accurate to next-to-leading order in the strong and electroweak couplings. The computational resources required for these set-ups are assessed, and approximations are introduced resulting in a factor three reduction of the per-event CPU time without affecting the physics modelling performance. Continuous statistical enhancement techniques are introduced by ATLAS in order to populate low cross-section regions of phase space and are shown to match or exceed the generated effective luminosity. This, together with the lower per-event CPU time, results in a 50% reduction in the required computing resources compared to a legacy set-up previously used by the ATLAS collaboration. The set-ups described in this paper will be used for future ATLAS analyses and lay the foundation for the next generation of Monte Carlo predictions for single vector-boson plus jets production.
    Scopus© Citations 7