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@ARTICLE{Campbell:475683,
author = {Campbell, J. M. and Diefenthaler, M. and Hobbs, T. J. and
Höche, S. and Isaacson, J. and Kling, Felix and Mrenna, S.
and Reuter, J. and Alioli, S. and Andersen, J. R. and
Andreopoulos, C. and Ankowski, A. M. and Aschenauer, E. C.
and Ashkenazi, A. and Baker, M. D. and Barrow, J. L. and van
Beekveld, M. and Bewick, G. and Bhattacharya, S. and
Bierlich, C. and Bothmann, E. and Bredt, P. and Broggio, A.
and Buckley, A. and Butter, A. and Butterworth, J. M. and
Byrne, E. P. and Chakraborty, S. and Chen, X. and Chiesa, M.
and Childers, J. T. and Cruz-Martinez, J. and Currie, J. and
Darvishi, N. and Dasgupta, M. and Denner, A. and Dreyer, F.
A. and Dytman, S. and El-Menoufi, B. K. and Engel, T. and
Ravasio, S. Ferrario and Flower, L. and Forshaw, J. R. and
Frederix, R. and Friedland, A. and Frixione, S. and
Gallagher, H. and Gallmeister, K. and Gardiner, S. and
Gauld, R. and Gavardi, A. and Gehrmann, T. and Ridder, A.
Gehrmann-De and Gellersen, L. and Gieseke, S. and Giuli, F.
and Glover, E. W. N. and Grazzini, M. and Grohsjean, A. and
Gütschow, C. and Hamilton, K. and Hatcher, R. and Helenius,
I. and Han, T. and Hen, O. and Hirschi, V. and Höfer, M.
and Holguin, J. and Huss, A. and Ilten, P. and Jadach, S.
and Jentsch, A. and Ju, W. and Kallweit, S. and Karlberg, A.
and Katori, T. and Kilian, W. and Kirchgaeßer, M. M. and
Knobbe, M. and Krause, C. and Krauss, F. and Lang, J.-N. and
Lee, G. and Li, S. W. and Lim, M. A. and Lindert, J. M. and
Lombardi, D. and Lönnblad, L. and Löschner, M. and Lurkin,
N. and Ma, Y. and Machado, P. and Maier, A. and Majer, I.
and Marcoli, M. and Marinelli, G. and Masouminia, M. R. and
Mattelaer, O. and Mazzitelli, J. and McFayden, J. and
Medves, R. and Meinzinger, P. and Mo, J. and Monni, P. F.
and Morgan, T. and Mosel, U. and Nachman, B. and Nadolsky,
P. and Nagar, R. and Nagy, Z. and Napoletano, D. and Nason,
P. and Neumann, T. and Nevay, L. J. and Niehues, J. and
Niewczas, K. and Ohl, T. and Pandey, V. and Papadopoulou, A.
and Paz, G. and Pellen, M. and Pelliccioli, G. and
Pickering, L. and Pires, J. and Plätzer, S. and Plehn, T.
and Pozzorini, S. and Prestel, S. and Preuss, C. T. and
Price, A. C. and Re, E. and Reichelt, D. and Richardson, P.
and Rocco, M. and Rocco, N. and Roda, M. and Garcia, A.
Rodriguez and Roiser, S. and Rojo, J. and Salam, G. P. and
Schönherr, M. and Schuchmann, S. and Schumann, S. and
Schürmann, R. and Scyboz, L. and Seymour, M. H. and
Siegert, F. and Signer, A. and Chahal, G. Singh and
Siódmok, A. and Sjöstrand, T. and Skands, P. and Smillie,
J. M. and Sobczyk, J. T. and Soldin, D. and Soper, D. E. and
Soto-Ontoso, A. and Soyez, G. and Stagnitto, G. and
Tena-Vidal, J. and Tomalak, O. and Trojanowski, S. and Tu,
Z. and Uccirati, S. and Ullrich, T. and Ulrich, Y. and
Utheim, M. and Valassi, A. and Verbytskyi, A. and Verheyen,
R. and Wagman, M. and Walker, D. and Webber, B. R. and
Weinstein, L. and White, O. and Whitehead, J. and Wiesemann,
M. and Wilkinson, C. and Williams, C. and Winterhalder, R.
and Wret, C. and Xie, K. and Yang, T-Z. and Yazgan, E. and
Zanderighi, G. and Zanoli, S. and Zapp, K.},
title = {{E}vent {G}enerators for {H}igh-{E}nergy {P}hysics
{E}xperiments},
reportid = {PUBDB-2022-01425, DESY-22-042. arXiv:2203.11110.
FERMILAB-PUB-22-116-SCD-T, CP3-22-12. CP3-22-12. IPPP-21-51.
JLAB-PHY-22-3576. KA-TP-04-2022. LA-UR-22-22126.
LU-TP-22-12. MCNET-22-04. OUTP-22-03P. P3H-22-024. PITT-PACC
2207. UCI-TR-2022-02},
year = {2022},
note = {153 pages, 10 figures, contribution to Snowmass 2021},
abstract = {We provide an overview of the status of Monte-Carlo event
generators for high-energy particle physics. Guided by the
experimental needs and requirements, we highlight areas of
active development, and opportunities for future
improvements. Particular emphasis is given to physics models
and algorithms that are employed across a variety of
experiments. These common themes in event generator
development lead to a more comprehensive understanding of
physics at the highest energies and intensities, and allow
models to be tested against a wealth of data that have been
accumulated over the past decades. A cohesive approach to
event generator development will allow these models to be
further improved and systematic uncertainties to be reduced,
directly contributing to future experimental success. Event
generators are part of a much larger ecosystem of
computational tools. They typically involve a number of
unknown model parameters that must be tuned to experimental
data, while maintaining the integrity of the underlying
physics models. Making both these data, and the analyses
with which they have been obtained accessible to future
users is an essential aspect of open science and data
preservation. It ensures the consistency of physics models
across a variety of experiments.},
keywords = {Monte Carlo (INSPIRE) / data preservation (INSPIRE)},
cin = {T},
cid = {I:(DE-H253)T-20120731},
pnm = {611 - Fundamental Particles and Forces (POF4-611)},
pid = {G:(DE-HGF)POF4-611},
experiment = {EXP:(DE-MLZ)NOSPEC-20140101},
typ = {PUB:(DE-HGF)25},
eprint = {2203.11110},
howpublished = {arXiv:2203.11110},
archivePrefix = {arXiv},
SLACcitation = {$\%\%CITATION$ = $arXiv:2203.11110;\%\%$},
doi = {10.3204/PUBDB-2022-01425},
url = {https://bib-pubdb1.desy.de/record/475683},
}
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