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Related papers: Snowmass 2013 Computing Frontier: Intensity Fronti…

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This report, as part of the 2021 Snowmass Process, summarizes the current status of collider physics at the Energy Frontier, the broad and exciting future prospects identified for the Energy Frontier, the challenges and needs of future…

Intensity Frontier experiments are often evaluated by the smallest coupling it can probe, irrespective of what particle can be found or the scientific significance of its detection. In this work, we propose a new framework that determines…

High Energy Physics - Phenomenology · Physics 2023-12-04 Oleksii Mikulenko , Kyrylo Bondarenko , Alexey Boyarsky , Oleg Ruchayskiy

This document presents (off-line) computing requrements and challenges for Cosmic Frontier science, covering the areas of data management, analysis, and simulations. We invite contributions to extend the range of covered topics and to…

These reports present the results of the 2013 Community Summer Study of the APS Division of Particles and Fields ("Snowmass 2013") on the future program of particle physics in the U.S. Chapter 3, on the Energy Frontier, discusses the…

The Contribution for the Computing for the Energy Frontier as part of the Snowmass study is discussed.

High Energy Physics - Experiment · Physics 2014-01-10 Ian Fisk , Jim Shank

Computing plays a significant role in all areas of high energy physics. The Snowmass 2021 CompF4 topical group's scope is facilities R&D, where we consider "facilities" as the computing hardware and software infrastructure inside the data…

The 2014 P5 report indicated the accelerator-based neutrino and rare decay physics research as a centrepiece of the US domestic HEP program. Operation, upgrade and development of the accelerators for the near-term and longer-term particle…

Accelerator Physics · Physics 2016-12-30 Vladimir Shiltsev

Dark matter particles can be observably produced at intensity-frontier experiments, and opportunities in the next decade will explore important parameter space motivated by thermal DM models, the dark sector paradigm, and anomalies in data.…

High Energy Physics - Phenomenology · Physics 2022-09-07 G. Krnjaic , N. Toro , A. Berlin , B. Batell , N. Blinov , L. Darme , P. DeNiverville , P. Harris , C. Hearty , M. Hostert , K. J. Kelly , D. McKeen , S. Trojanowski , Y. -D. Tsai

Next-generation tests of fundamental physics and cosmology using large scale structure require measurements over large volumes of the Universe, including high redshifts inaccessible to present-day surveys. Line intensity mapping, an…

Cosmology and Nongalactic Astrophysics · Physics 2022-03-15 Kirit S. Karkare , Azadeh Moradinezhad Dizgah , Garrett K. Keating , Patrick Breysse , Dongwoo T. Chung

As part of the Intensity Frontier effort within the 2013 Community Summer Study, a workshop on the proton machine capabilities was held (High Intensity Secondary Beams Driven by Proton Beams) April 17-20, 2013 at Brookhaven National…

Accelerator Physics · Physics 2013-08-23 John Galambos , Mei Bai , Sergei Nagaitsev

These reports present the results of the 2013 Community Summer Study of the APS Division of Particles and Fields ("Snowmass 2013") on the future program of particle physics in the U.S. Chapter 4, on the Cosmic Frontier, discusses the…

This report summarizes the work of the Computational Frontier topical group on theoretical calculations and simulation for Snowmass 2021. We discuss the challenges, potential solutions, and needs facing six diverse but related topical areas…

Computational Physics · Physics 2022-09-20 Peter Boyle , Kevin Pedro , Ji Qiang

This document represents the response of the Intensity Frontier Neutrino Working Group to the Snowmass charge. We summarize the current status of neutrino physics and identify many exciting future opportunities for studying the properties…

High Energy Physics - Experiment · Physics 2013-10-17 A. de Gouvea , K. Pitts , K. Scholberg , G. P. Zeller , J. Alonso , A. Bernstein , M. Bishai , S. Elliott , K. Heeger , K. Hoffman , P. Huber , L. J. Kaufman , B. Kayser , J. Link , C. Lunardini , B. Monreal , J. G. Morfin , H. Robertson , R. Tayloe , N. Tolich , K. Abazajian , T. Akiri , C. Albright , J. Asaadi , K. S Babu , A. B. Balantekin , P. Barbeau , M. Bass , A. Blake , A. Blondel , E. Blucher , N. Bowden , S. J. Brice , A. Bross , B. Carls , F. Cavanna , B. Choudhary , P. Coloma , A. Connolly , J. Conrad , M. Convery , R. L. Cooper , D. Cowen , H. da Motta , T. de Young , F. Di Lodovico , M. Diwan , Z. Djurcic , M. Dracos , S. Dodelson , Y. Efremenko , T. Ekelof , J. L. Feng , B. Fleming , J. Formaggio , A. Friedland , G. Fuller , H. Gallagher , S. Geer , M. Gilchriese , M. Goodman , D. Grant , G. Gratta , C. Hall , F. Halzen , D. Harris , M. Heffner , R. Henning , J. L. Hewett , R. Hill , A. Himmel , G. Horton-Smith , A. Karle , T. Katori , E. Kearns , S. Kettell , J. Klein , Y. Kim , Y. K. Kim , Yu. Kolomensky , M. Kordosky , Yu. Kudenko , V. A. Kudryavtsev , K. Lande , K. Lang , R. Lanza , K. Lau , H. Lee , Z. Li , B. R. Littlejohn , C. J. Lin , D. Liu , H. Liu , K. Long , W. Louis , K. B. Luk , W. Marciano , C. Mariani , M. Marshak , C. Mauger , K. T. McDonald , K. McFarland , R. McKeown , M. Messier , S. R. Mishra , U. Mosel , P. Mumm , T. Nakaya , J. K. Nelson , D. Nygren , G. D. Orebi Gann , J. Osta , O. Palamara , J. Paley , V. Papadimitriou , S. Parke , Z. Parsa , R. Patterson , A. Piepke , R. Plunkett , A. Poon , X. Qian , J. Raaf , R. Rameika , M. Ramsey-Musolf , B. Rebel , R. Roser , J. Rosner , C. Rott , G. Rybka , H. Sahoo , S. Sangiorgio , D. Schmitz , R. Shrock , M. Shaevitz , N. Smith , M. Smy , H. Sobel , P. Sorensen , A. Sousa , J. Spitz , T. Strauss , R. Svoboda , H. A. Tanaka , J. Thomas , X. Tian , R. Tschirhart , C. Tully , K. Van Bibber , R. G. Van de Water , P. Vahle , P. Vogel , C. W. Walter , D. Wark , M. Wascko , D. Webber , H. Weerts , C. White , H. White , L. Whitehead , R. J. Wilson , L. Winslow , T Wongjirad , E. Worcester , M. Yokoyama , J. Yoo , E. D. Zimmerman

This is the summary report of the Community Engagement Frontier for the Snowmass 2021 study of the future of particle physics. The report discusses a number of general issues of importance to the particle physics community, including (1)…

A thorough understanding of neutrino cross sections in a wide range of energies is crucial for the successful execution of the entire neutrino physics program. In order to extract neutrino properties, long-baseline experiments need an…

Our limited understanding of the physical properties of matter at ultra-high density, high proton/neutron number asymmetry, and low temperature is presently one of the major outstanding problems in physics. As matter in this extreme state…

Careful preservation of experimental data, simulations, analysis products, and theoretical work maximizes their long-term scientific return on investment by enabling new analyses and reinterpretation of the results in the future. Key…

Computational Physics · Physics 2022-09-20 Stephen Bailey , K. S. Cranmer , Matthew Feickert , Rob Fine , Sabine Kraml , Clemens Lange

We discuss the scientific motivation, possible experiments, and beam requirements for measurements of parity violation in photonuclear reactions at an intensity upgraded HIGS facility, HIGS2.

Nuclear Theory · Physics 2013-08-01 M. W. Ahmed , A. E. Champagne , B. R. Holstein , C. R. Howell , W. M. Snow , R. P. Springer , W. K. Wu

Particle detectors making use of noble elements in gaseous, liquid, or solid phases are prevalent in neutrino and dark matter experiments and are also used to a lesser extent in collider-based particle physics experiments. These experiments…

Quantum computing offers a new paradigm for advancing high-energy physics research by enabling novel methods for representing and reasoning about fundamental quantum mechanical phenomena. Realizing these ideals will require the development…