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26 April 2024 |
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Report of the Snowmass 2021 Topical Group on Lattice Gauge Theory | Zohreh Davoudi
; Ethan T. Neil
; Christian W. Bauer
; Tanmoy Bhattacharya
; Thomas Blum
; Peter Boyle
; Richard C. Brower
; Simon Catterall
; Norman H. Christ
; Vincenzo Cirigliano
; Gilberto Colangelo
; Carleton DeTar
; William Detmold
; Robert G. Edwards
; Aida X. El-Khadra
; Steven Gottlieb
; Rajan Gupta
; Daniel C. Hackett
; Anna Hasenfratz
; Taku Izubuchi
; William I. Jay
; Luchang Jin
; Christopher Kelly
; Andreas S. Kronfeld
; Christoph Lehner
; Huey-Wen Lin
; Meifeng Lin
; Andrew T. Lytle
; Stefan Meinel
; Yannick Meurice
; Swagato Mukherjee
; Amy Nicholson
; Sasa Prelovsek
; Martin J. Savage
; Phiala E. Shanahan
; Ruth S. Van De Water
; Michael L. Wagman
; Oliver Witzel
; | Date: |
22 Sep 2022 | Abstract: | Lattice gauge theory continues to be a powerful theoretical and computational
approach to simulating strongly interacting quantum field theories, whose
applications permeate almost all disciplines of modern-day research in
High-Energy Physics. Whether it is to enable precision quark- and lepton-flavor
physics, to uncover signals of new physics in nucleons and nuclei, to elucidate
hadron structure and spectrum, to serve as a numerical laboratory to reach
beyond the Standard Model, or to invent and improve state-of-the-art
computational paradigms, the lattice-gauge-theory program is in a prime
position to impact the course of developments and enhance discovery potential
of a vibrant experimental program in High-Energy Physics over the coming
decade. This projection is based on abundant successful results that have
emerged using lattice gauge theory over the years: on continued improvement in
theoretical frameworks and algorithmic suits; on the forthcoming transition
into the exascale era of high-performance computing; and on a skillful,
dedicated, and organized community of lattice gauge theorists in the U.S. and
worldwide. The prospects of this effort in pushing the frontiers of research in
High-Energy Physics have recently been studied within the U.S. decadal Particle
Physics Planning Exercise (Snowmass 2021), and the conclusions are summarized
in this Topical Report. | Source: | arXiv, 2209.10758 | Services: | Forum | Review | PDF | Favorites |
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