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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)…

This invited Snowmass 2021 White Paper highlights the power of joint-analysis of astronomical transients in advancing HEP Science and presents research activities that can realize the opportunities that come with current and upcoming…

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 report summarizes the findings of the AF1 Topical Subgroup to Snowmass 2021, which investigates beam physics and accelerator education within the accelerator frontiers (AF). The report focuses primarily on opportunities for basic…

Accelerator Physics · Physics 2022-09-19 M. Bai , Z. Huang , S. M. Lund

This is a Snowmass 2021 Topical Report for the Underground Facilities and Infrastructure Frontier on Synergies in Research at Underground Facilities: A broad range of scientific and engineering research is possible in underground…

We review how theorists have been instrumental in launching and developing new experiments in the last decade, and comment on the challenges and opportunities for this program to continue to thrive going forward. This whitepaper is a…

High Energy Physics - Phenomenology · Physics 2022-03-21 Rouven Essig , Yonatan Kahn , Simon Knapen , Andreas Ringwald , Natalia Toro

An essential companion to the development and advancement of the field of Particle Physics is a strong program in physics education at all levels, that can attract entry level students across the full demographic spectrum and provide them…

Physics Education · Physics 2022-09-23 Sibrand J. de Jong , Sudhir Malik , Randal Ruchti

The Instrumentation Frontier was set up as a part of the Snowmass 2013 Community Summer Study to examine the instrumentation R&D needed to support particle physics research over the coming decade. This report summarizes the findings of the…

Instrumentation and Detectors · Physics 2013-09-10 Ulrich Heintz , Daniela Bortoletto , Marcus Hohlmann , Thomas LeCompte , Ron Lipton , Meenakshi Narain , Andrew White

This is a Snowmass whitepaper on physical mathematics. It briefly summarizes and highlights some of the key questions drawn from a much more extensive essay, by the same authors, entitled, "A Panorama Of Physical Mathematics 2021."

High Energy Physics - Theory · Physics 2022-03-11 Ibrahima Bah , Daniel Freed , Gregory W. Moore , Nikita Nekrasov , Shlomo S. Razamat , Sakura Schäfer-Nameki

Advances in experimental techniques make it possible to map the high redshift Universe in three dimensions at high fidelity in the near future. This will increase the observed volume by many-fold, while providing unprecedented access to…

Cosmology and Nongalactic Astrophysics · Physics 2022-09-13 Simone Ferraro , Noah Sailer , Anze Slosar , Martin White

We present an overview of future observational facilities that will significantly enhance our understanding of the fundamental nature of dark matter. These facilities span a range of observational techniques including optical/near-infrared…

This report has been prepared as part of the US Community Study on the Future of Particle Physics (Snowmass 2021) by the Snowmass Neutrino Frontier Topical Group NF02 Conveners, and it is based on the NF02 Topical Group-contributed White…

High Energy Physics - Experiment · Physics 2022-09-30 Georgia Karagiorgi , Bryce R. Littlejohn , Pedro Machado , Alexandre Sousa

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 8, on the Instrumentation Frontier, discusses…

High Energy Physics - Experiment · Physics 2014-01-24 M. Demarteau , R. Lipton , H. Nicholson , I. Shipsey , D. Akerib , A. Albayrak-Yetkin , J. Alexander , J. Anderson , M. Artuso , D. Asner , R. Ball , M. Battaglia , C. Bebek , J. Beene , Y. Benhammou , E. Bentefour , M. Bergevin , A. Bernstein , B. Bilki , E. Blucher , G. Bolla , D. Bortoletto , N. Bowden , G. Brooijmans , K. Byrum , B. Cabrera , G. Cancelo , J. Carlstrom , B. Casey , C. Chang , J. Chapman , C. H. Chen , I. Childres , D. Christian , M. Convery , W. Cooper J. Corso , J. Cumalat , P. Cushman , C. Da Via , S. Dazeley , P. Debbins , G. Deptuch , S. Dhawan , V. Di Benedetto , B. DiGiovene , Z. Djurcic , S. Dye , A. Elagin , J. Estrada , H. Evans , E. Etzion , J. Fast , C. Ferretti , P. Fisher , B. Fleming , K. Francis , P. Friedman , H. Frisch , M. Garcia-Sciveres , C. Gatto , G. Geronim , G. Gilchriese , S. Golwala , C. Grant , A. Grillo , E. Grünendahl , P. Gorham , L. Guan , G. Gutierrez , C. Haber , J. Hall , G. Haller , C. Hast , U. Heintz , T. Hemmick , D. G. Hitlin , C. Hogan , M. Hohlmann , E. Hoppe , L. Hsu , M. Huffer , K. Irwin , F. Izraelevitch , G. Jennings , M. Johnson , A. Jung , H. Kagan , C. Kenney , S. Kettell , R. Khanna , V. Khristenko , F. Krennrich , K. Kuehn , R. Kutschke , J. Learned , A. T. Lee , D. Levin , T. Liu , A. T. K. Liu , D. Lissauer , J. Love , D. Lynn , D. MacFarlane , S. Magill , S. Majewski , J. Mans , J. Maricic , P. Marleau , A. Mazzacane , D. McKinsey , J. Mehl , A. Mestvirisvilli , S. Meyer , N. Mokhov , M. Moshe , A. Mukherjee , P. Murat , S. Nahn , M. Narain , P. Nadel-Turonski , M. Newcomer , K. Nishimura , D. Nygren , E. Oberla , Y. Onel , M. Oreglia , J. Orrell , J. Paley , A. Para , S. Parker , V. Polychronakos , S. Pordes , P. Privitera , A. Prosser , M. Pyle , J. Raaf , E. Ramberg , R. Rameika , B. Rebel , J. Repond , D. Reyna , L. Ristori , R. Rivera , A. Ronzhin , R. Rusack , J. Russ , A. Ryd , H. Sadrozinski , H. Sahoo , M. C. Sanchez , C. Sanzeni , S. Schnetzer , S. Seidel , A. Seiden , I. Schmidt , A. Shenai , T. Shutt , Y. Silver , W. Smith , D. Snowden-Ifft , A. Sonnenschein , D. Southwick , L. Spiegel , M. Stanitzki , S. Striganov , D. Su , R. Sumner , R. Svoboda , M. Sweany , R. Talaga , R. Tayloe , S. Tentindo , N. Terentiev , J. Thom-Levy , C. Thorn , J. Tiffenberg , W. Trischuk , R. Tschirhart , M. Turner , D. Underwood , L. Uplegger , J. Urheim , M. Vagins , K. Van Bibber , G. Varner , R. Varner , J. Va'vra , H. Von der Lippe , R. Wagner , S. Wagner , C. Weaverdyck , H. Wenzel , A. Weinstein , M. Wetstein , A. White , R. Wigman , P. Wilson , D. Winn , P. Winter , C. Woody , L. Xia , J. Q. Xie , Z. Ye , M. F. Yeh , T. Yetkin , J. H. Yoo , J. Yu , J. M. Yu , S. Zeller , J. L. Zhang , J. J. Zhu , B. Zhou , R. Y. Zhu , B. Zitzer

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

This is the report of the Snowmass 2013 Computing Frontier Working Group on Distributed Computing and Facility Infrastructures.

Computational Physics · Physics 2013-11-13 Kenneth Bloom , Richard Gerber