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RF Accelerator Technology R&D: Report of AF7-rf Topical Group to Snowmass 2021
Accelerator radio frequency (RF) technology has been and remains critical for modern high energy physics (HEP) experiments based on particle accelerators. Tremendous progress in advancing this technology has been achieved over the past decade in several areas highlighted in this report. These achiev...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
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2022
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| Acceso en línea: | http://cds.cern.ch/record/2825738 |
| _version_ | 1780973796600053760 |
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| author | Belomestnykh, Sergey Nanni, Emilio A. Weise, Hans Baryshev, Sergey V. Dhakal, Pashupati Geng, Rongli Giaccone, Bianca Jing, Chunguang Liepe, Matthias Lu, Xueying Luo, Tianhuan Myneni, Ganapati Nassiri, Alireza Neuffer, David Ng, Cho-Kuen Posen, Sam Tantawi, Sami Valente-Feliciano, Anne-Marie Vay, Jean-Luc Weatherford, Brandon Yamamoto, Akira |
| author_facet | Belomestnykh, Sergey Nanni, Emilio A. Weise, Hans Baryshev, Sergey V. Dhakal, Pashupati Geng, Rongli Giaccone, Bianca Jing, Chunguang Liepe, Matthias Lu, Xueying Luo, Tianhuan Myneni, Ganapati Nassiri, Alireza Neuffer, David Ng, Cho-Kuen Posen, Sam Tantawi, Sami Valente-Feliciano, Anne-Marie Vay, Jean-Luc Weatherford, Brandon Yamamoto, Akira |
| author_sort | Belomestnykh, Sergey |
| collection | CERN |
| description | Accelerator radio frequency (RF) technology has been and remains critical for modern high energy physics (HEP) experiments based on particle accelerators. Tremendous progress in advancing this technology has been achieved over the past decade in several areas highlighted in this report. These achievements and new results expected from continued R&D efforts could pave the way for upgrades of existing facilities, improvements to accelerators already under construction (e.g., PIP-II), well-developed proposals (e.g., ILC, CLIC), and/or enable concepts under development, such as FCC-ee, CEPC, C3, HELEN, multi-MW Fermilab Proton Intensity Upgrade, future Muon Colloder, etc. Advances in RF technology have impact beyond HEP on accelerators built for nuclear physics, basic energy sciences, and other areas. Recent examples of such accelerators are European XFEL, LCLS-II and LCLS-II-HE, SHINE, SNS, ESS, FRIB, and EIC. To support and enable new accelerator-based applications and even make some of them feasible, we must continue addressing their challenges via a comprehensive RF R&D program that would advance the existing RF technologies and explore the nascent ones. |
| id | cern-2825738 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2022 |
| record_format | invenio |
| spelling | cern-28257382023-06-29T04:25:05Zhttp://cds.cern.ch/record/2825738engBelomestnykh, SergeyNanni, Emilio A.Weise, HansBaryshev, Sergey V.Dhakal, PashupatiGeng, RongliGiaccone, BiancaJing, ChunguangLiepe, MatthiasLu, XueyingLuo, TianhuanMyneni, GanapatiNassiri, AlirezaNeuffer, DavidNg, Cho-KuenPosen, SamTantawi, SamiValente-Feliciano, Anne-MarieVay, Jean-LucWeatherford, BrandonYamamoto, AkiraRF Accelerator Technology R&D: Report of AF7-rf Topical Group to Snowmass 2021physics.acc-phAccelerators and Storage RingsAccelerator radio frequency (RF) technology has been and remains critical for modern high energy physics (HEP) experiments based on particle accelerators. Tremendous progress in advancing this technology has been achieved over the past decade in several areas highlighted in this report. These achievements and new results expected from continued R&D efforts could pave the way for upgrades of existing facilities, improvements to accelerators already under construction (e.g., PIP-II), well-developed proposals (e.g., ILC, CLIC), and/or enable concepts under development, such as FCC-ee, CEPC, C3, HELEN, multi-MW Fermilab Proton Intensity Upgrade, future Muon Colloder, etc. Advances in RF technology have impact beyond HEP on accelerators built for nuclear physics, basic energy sciences, and other areas. Recent examples of such accelerators are European XFEL, LCLS-II and LCLS-II-HE, SHINE, SNS, ESS, FRIB, and EIC. To support and enable new accelerator-based applications and even make some of them feasible, we must continue addressing their challenges via a comprehensive RF R&D program that would advance the existing RF technologies and explore the nascent ones.arXiv:2208.12368FERMILAB-FN-1189-TDoai:cds.cern.ch:28257382022-08-25 |
| spellingShingle | physics.acc-ph Accelerators and Storage Rings Belomestnykh, Sergey Nanni, Emilio A. Weise, Hans Baryshev, Sergey V. Dhakal, Pashupati Geng, Rongli Giaccone, Bianca Jing, Chunguang Liepe, Matthias Lu, Xueying Luo, Tianhuan Myneni, Ganapati Nassiri, Alireza Neuffer, David Ng, Cho-Kuen Posen, Sam Tantawi, Sami Valente-Feliciano, Anne-Marie Vay, Jean-Luc Weatherford, Brandon Yamamoto, Akira RF Accelerator Technology R&D: Report of AF7-rf Topical Group to Snowmass 2021 |
| title | RF Accelerator Technology R&D: Report of AF7-rf Topical Group to Snowmass 2021 |
| title_full | RF Accelerator Technology R&D: Report of AF7-rf Topical Group to Snowmass 2021 |
| title_fullStr | RF Accelerator Technology R&D: Report of AF7-rf Topical Group to Snowmass 2021 |
| title_full_unstemmed | RF Accelerator Technology R&D: Report of AF7-rf Topical Group to Snowmass 2021 |
| title_short | RF Accelerator Technology R&D: Report of AF7-rf Topical Group to Snowmass 2021 |
| title_sort | rf accelerator technology r&d: report of af7-rf topical group to snowmass 2021 |
| topic | physics.acc-ph Accelerators and Storage Rings |
| url | http://cds.cern.ch/record/2825738 |
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