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Related papers: Intensity Frontier Instrumentation

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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

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 Intensity Frontier (IF) is a primary focus of the U.S.-based particle physics program. It encompasses a large spectrum of physics, including quark flavor physics, charged lepton processes, neutrinos, baryon number violation, new light…

High Energy Physics - Experiment · Physics 2013-10-28 B. Rebel , M. C. Sanchez , S. Wolbers

We discuss main issues and R&D Required for the Intensity Frontier Accelerators and therefore provide input for the 2013 APS/DPF Community Summer Study (Snowmass-2013).

Accelerator Physics · Physics 2013-05-30 V. Shiltsev , S. Henderson , P. Hurh , I. Kourbanis , V. Lebedev

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 2, on the Intensity Frontier, discusses the…

This is the report of the Computing Frontier working group on Lattice Field Theory prepared for the proceedings of the 2013 Community Summer Study ("Snowmass"). We present the future computing needs and plans of the U.S. lattice gauge…

High Energy Physics - Lattice · Physics 2013-10-25 T. Blum , R. S. Van de Water , D. Holmgren , R. Brower , S. Catterall , N. Christ , A. Kronfeld , J. Kuti , P. Mackenzie , E. T. Neil , S. R. Sharpe , R. Sugar

This is the working summary of the Accelerator Science working group of the Computing Frontier of the Snowmass meeting 2013. It summarizes the computing requirements to support accelerator technology in both Energy and Intensity Frontiers.

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…

Wireless techniques have developed extremely fast over the last decade and using them for data and power transmission in particle physics detectors is not science- fiction any more. During the last years several research groups have…

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)…

We summarize current and future applications of quantum information science to theoretical high energy physics. Three main themes are identified and discussed; quantum simulation, quantum sensors and formal aspects of the connection between…

We summarize recent progress in the development, application, and understanding of effective field theories and highlight promising directions for future research. This Report is prepared as the TF02 "Effective Field Theory" topical group…

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

This report summarizes the work of the Energy Frontier Top Quark working group of the 2013 Community Summer Study (Snowmass).

High Energy Physics - Phenomenology · Physics 2013-11-11 K. Agashe , R. Erbacher , C. E. Gerber , K. Melnikov , R. Schwienhorst , A. Mitov , M. Vos , S. Wimpenny , J. Adelman , M. Baumgart , A. Garcia-Bellido , A. Loginov , A. Jung , M. Schulze , J. Shelton , N. Craig , M. Velasco , T. Golling , J. Hubisz , A. Ivanov , M. Perelstein , S. Chekanov , J. Dolen , J. Pilot , R. Pöschl , B. Tweedie , S. Alioli , B. Alvarez-Gonzalez , D. Amidei , T. Andeen , A. Arce , B. Auerbach , A. Avetisyan , M. Backovic , Y. Bai , M. Begel , S. Berge , C. Bernard , C. Bernius , S. Bhattacharya , K. Black , A. Blondel , K. Bloom , T. Bose , J. Boudreau , J. Brau , A. Broggio , G. Brooijmans , E. Brost , R. Calkins , D. Chakraborty , T. Childress , G. Choudalakis , V. Coco , J. S. Conway , C. Degrande , A. Delannoy , F. Deliot , L. Dell'Asta , E. Drueke , B. Dutta , A. Effron , K. Ellis , J. Erdmann , J. Evans , C. Feng , E. Feng , A. Ferroglia , K. Finelli , W. Flanagan , I. Fleck , A. Freitas , F. Garberson , R. Gonzalez Suarez , M. L. Graesser , N. Graf , Z. Greenwood , J. George , C. Group , A. Gurrola , G. Hammad , T. Han , Z. Han , U. Heintz , S. Hoeche , T. Horiguchi , I. Iashvili , A. Ismail , S. Jain , P. Janot , W. Johns , J. Joshi , A. Juste , T. Kamon , C. Kao , Y. Kats , A. Katz , M. Kaur , R. Kehoe , W. Keung , S. Khalil , A. Khanov , A. Kharchilava , N. Kidonakis , C. Kilic , N. Kolev , A. Kotwal , J. Kraus , D. Krohn , M. Kruse , A. Kumar , S. Lee , E. Luiggi , S. Mantry , A. Melo , D. Miller , G. Moortgat-Pick , M. Narain , N. Odell , Y. Oksuzian , M. Oreglia , A. Penin , Y. Peters , C. Pollard , S. Poss , H. B. Prosper S. Rappoccio , S. Redford , M. Reece , F. Rizatdinova , P. Roloff , R. Ruiz , M. Saleem , B. Schoenrock , C. Schwanenberger , T. Schwarz , K. Seidel , E. Shabalina , P. Sheldon , F. Simon , K. Sinha , P. Skands , P. Skubik , G. Sterman , D. Stolarski , J. Strube , J. Stupak , S. Su , M. Tesar , S. Thomas , E. Thompson , P. Tipton , E. Varnes , N. Vignaroli , J. Virzi , M. Vogel , D. Walker , K. Wang , B. Webber , J. D. Wells , S. Westhoff , D. Whiteson , M. Williams , S. Wu , U. Yang , H. Yokoya , H. Yoo , H. Zhang , N. Zhou , H. Zhu , J. Zupan

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

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…

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…

The substantial increase in data volume and complexity expected from future experiments will require significant investment to prepare experimental algorithms. These algorithms include physics object reconstruction, calibrations, and…

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