submissions:af
Submissions to the Snowmass 2021 Proceedings - Accelerator Science and Technology
Papers of general interest to this frontier
- V. Shiltsev and F. Zimmermann, “Modern and Future Colliders”, arXiv:2003.09084 [phys.acc-ph] (pdf).
- Jonathan L. Feng, Felix Kling, Mary Hall Reno, Juan Rojo, Dennis Soldin, et al. ”The Forward Physics Facility at the High-Luminosity LHC“, arXiv:2203.05090 [hep-ex] (pdf). (also under EF0, NF0, RF0, CF0, TF0, IF0)
- J. A. Bagger, B. C. Barish, S. Belomestnykh, P. C. Bhat, J. E. Brau, et al. ”Higgs Factory Considerations”, arXiv:2203.06164 [hep-ex] (pdf). (also under EF01)
- John Arrington, Joshua Barrow, Brian Batell, Robert Bernstein, Nikita Blinov, et al. ”Physics Opportunities for the Fermilab Booster Replacement“, arXiv:2203.03925 [hep-ph] (pdf). (also under NF0, RF0, TF0)
- Patrick J. Fox, Sergo Jindariani, Vladimir Shiltsev. ”DIMUS: Super-Compact Dimuonium Spectroscopy Collider at Fermilab”, arXiv:2203.07144 [hep-ex] (pdf). (also under RF0, TF0)
- G. Bernardi, E. Brost, D. Denisov, G. Landsberg, M. Aleksa, D. d'Enterria, P. Janot, M.L. Mangano, et al. “The Future Circular Collider: a Summary for the US 2021 Snowmass Process”, arXiv:2203.06520 [hep-ex] (pdf). (also under EF0, NF0, RF0, TF0, IF0)
- P. C. Bhat, S. Jindariani, G. Ambrosio, G. Apollinari, S. Belomestnykh, et al. ”Future Collider Options for the US“, arXiv:2203.08088 [hep-ex] (pdf). (also under EF0, TF0)
- Alex Bogacz, Vedran Brdar, Alan Bross, André de Gouvêa, Jean-Pierre Delahaye, Patrick Huber, et al. ”The Physics Case for a Neutrino Factory”, arXiv:2203.08094 [hep-ph] (pdf). (also under EF0, NF09)
- S. Biedron, L. Brouwer, D.L. Bruhwiler, N. M. Cook, A. L. Edelen, D. Filippetto, et al. ”Accelerator Modeling Community White Paper”, arXiv:2203.08335 [physics.acc-ph] (pdf). (also under CompF02)
- A. Alekou, E. Baussan, N. Blaskovic Kraljevic, M. Blennow, M. Bogomilov, E. Bouquerel, et al. ”The European Spallation Source neutrino Super Beam“, arXiv:2203.08803 [physics.acc-ph] (pdf). (also under NF0, RF0, CF0, AF0, UF0)
- O. Brunner, P. N. Burrows, S. Calatroni, N. Catalan, R. Corsini, G. D'Auria, et al. ”The CLIC project”, arXiv:2203.09186 [physics.acc-ph] (pdf). (also under EF0)
- J. R. Alonso, J. M. Conrad, Y. D. Kim, S. H. Seo, M. H. Shaevitz, J. Spitz, D. Winklehner. ”IsoDAR Overview”, arXiv:2203.08804 [hep-ex] (pdf). (also under NF0, AF0, CommF01)
- Eric Adelberger, Dmitry Budker, Ron Folman, Andrew A. Geraci, Jason T. Harke, et al. ”Precision Studies of Spacetime Symmetries and Gravitational Physics“, arXiv:2203.09691 [hep-ex] (pdf). (also under RF0, CF0, IF0)
- A. M. M. Todd, R. Agustsson, D. L. Bruhwiler, J. Chunguang,, et al. ”Nurturing the Industrial Accelerator Technology Base in the US”, arXiv:2203.10377 [physics.acc-ph] (pdf). (also under CommF01)
- R. Abdul Khalek, U. D'Alesio, M. Arratia, A. Bacchetta, M. Battaglieri, et al. ”Electron Ion Collider for High Energy Physics“, arXiv:2203.13199 [hep-ph] (pdf). (also under EF07, TF0, IF0)
- M. Endo, K. Hamaguchi, M. Ibe, T. Ishibashi, A. Ishikawa, M. Ishino, M. Ishitsuka, S. Kanemura, M. Kuriki, T. Mori, S. Moriyama, H. Nanjo, W. Ootani, and Y. Sato. ”Japan’s Strategy for Future Projects in High Energy Physics”, arXiv:2203.13979 [hep-ex] (pdf). (also under EF0, NF0, RF0, CF0, UF0)
- Zhen Liu, Lian-Tao Wang. ”Physics at Future Colliders: the Interplay Between Energy and Luminosity”, arXiv:2205.00031 [hep-ph] (pdf). (also under EF0)
- Huajie Cheng, Wen Han Chiu, Yaquan Fang, Yu Gao, Jiayin Gu, Gang Li, Tianjun Li, et al. “The Physics potential of the CEPC”, arXiv:2205.08553 [hep-ph] (pdf). (also under EF0, TF0)
- Thomas Roser, Reinhard Brinkmann, Sarah Cousineau, Dmitri Denisov, Spencer Gessner, Steve Gourlay, Philippe Lebrun, Meenakshi Narain, Katsunobu Oide, Tor Raubenheimer, John Seeman, Vladimir Shiltsev, Jim Strait, Marlene Turner, Lian-Tao Wang. “Report of the Snowmass 2021 Collider Implementation Task Force”, arXiv:2208.06030 [physics.acc-ph] (pdf). (also under EF0, TF0)
- Patrick Janot, Alain Blondel. “The carbon footprint of proposed e+e- Higgs factories”, arXiv:2208.10466 [hep-ph] (pdf). (also under EF0)
- Brendon Madison, Graham W. Wilson. “Center-of-mass energy determination using e+e−→μ+μ-(γ) events at future e+e− colliders”, arXiv:2209.03281 [hep-ex] (pdf). (also under EF0, IF0)
- Alain Blondel, Patrick Janot, Niloufar Alipour Tehrani, Patrizia Azzi, et al. “FCC-ee: Your Questions Answered”, arXiv:1906.02693 [hep-ph] (pdf). (also under EF0, NF0, RF0, TF0)
AF01: Beam Physics and Accelerator Education
- S. Nagaitsev, V. Shiltsev, A. Valishev, T. Zolkin, J.-L. Vay, M. Bai, et al. ”Accelerator and Beam Physics: Grand Challenges and Research Opportunities“, arXiv:2203.06816 [physics.acc-ph] (pdf).
- S. Brooks, K. Brown, F. Méot, A. Nomerotski, S. Peggs, M. Palmer, et al. ”Ion Coulomb Crystals in Storage Rings for Quantum Information Science”, arXiv:2203.06809 [physics.acc-ph] (pdf). (also under TF10, IF01, CompF06)
- M. Bai, W. A. Barletta, D. L. Bruhwiler, S. Chattopadhyay, Y. Hao, S. Holder, et al. ”Strategies in Education, Outreach, and Inclusion to Enhance the US Workforce in Accelerator Science and Engineering”, arXiv:2203.08919 [physics.acc-ph] (pdf). (also under CommF03)
- Enrique Arce-Lareta, Ketevi Assmamagan, Emanuela Barzi, Uta Bilow, Kenneth Cecire, et al. ”The Necessity of International Particle Physics Opportunities for American Education”, arXiv:2203.09336 [physics.ed-ph] (pdf). (also under CommF04)
- Emanuela Barzi, S. James Gates Jr., Roxanne Springer. ”In Search of Excellence and Equity in Physics“, arXiv:2203.10393 [physics.soc-ph] (pdf). (also under EF0, NF0, RF0, CF0, TF0, IF0, CompF0, UF0, CommF0)
- John Power, Christine Clarke, Michael Downer, Eric Esarey, Cameron Geddes, et al. ”Beam Test Facilities for R&D in Accelerator Science and Technologies”, arXiv:2203.11290 [physics.acc-ph] (pdf).
- Emanuela Barzi, Simonetta liuti, Christine Nattrass, Roxanne Springer. “How Community Agreements Can Improve Climate in Physics”, arXiv:2209.06755 [physics.soc-ph] (pdf). (also under EF0, NF0, RF0, CF0, TF0, IF0, CompF0, UF0, CommF0)
AF02: Accelerators for neutrinos
- Sergei Nagaitsev, Valeri Lebedev ,“A Cost-Efective Upgrade Path for the Fermilab Accelerator Complex”, arXiv:2111.06932 [physics.acc-ph] (pdf). (also under NF09)
- R. Ainsworth, J. Dey, J. Eldred, R. Harnik, J. Jarvis, et al. ”An Upgrade Path for the Fermilab Accelerator Complex“, arXiv:2106.02133 [physics.acc-ph] (pdf). (also under NF09)
- T. Akindele, T. Anderson, E. Anderssen, M. Askins, M. Bohles, A. J. Bacon, et al. ”A Call to Arms Control: Synergies between Nonproliferation Applications of Neutrino Detectors and Large-Scale Fundamental Neutrino Physics Experiments”, arXiv:2203.00042 [physics.ins-det] (pdf). (also under NF07, IF09, UF01, CommF07)
- Daniel Winklehner, Andreas Adelmann, Jose R. Alonso, Luciano Calabretta, Hiroki Okuno, Thomas Planche, Malek Haj Tahar. ”High-Power Cyclotrons and FFAs”, arXiv:2203.07919 [physics.acc-ph] (pdf). (also under NF09)
- A. Longhin, F. Terranova (on behalf of the ENUBET Collaboration). ”Enhanced NeUtrino BEams from kaon Tagging (ENUBET)“, arXiv:2203.08319 [hep-ex] (pdf). (also under NF09)
- Jeffrey Eldred, Sergei Nagaitsev, Vladimir Shiltsev, Alexander Valishev, Robert Zwaska, Michael Syphers. ”Design Considerations for Fermilab Multi-MW Proton Facility in the DUNE/LBNF era”, arXiv:2203.08276 [physics.acc-ph] (pdf). (also under NF09, RF05)
- Abdurahim Rakhman. ”Laser Manipulation of H- Beams”, arXiv:2203.08427 [physics.acc-ph] (pdf).
- Hannes Bartosik, Giovanni Rumolo. ”Performance of the LHC injector chain after the upgrade and potential development“, arXiv:2203.09202 [physics.acc-ph] (pdf).
- Daniel Winklehner, Andreas Adelmann, Jose R. Alonso, Luciano Calabretta, Hiroki Okuno, Thomas Planche, Malek Haj Tahar. ”Report of the Snowmass'21 Workshop on High-Power Cyclotrons and FFAs”, arXiv:2203.07919 [physics.acc-ph] (pdf).
- M. Perrin-Terrin. “Tagged Neutrino Beams”, (pdf available here) (also under NF01, IF03)
AF03: Accelerators for electroweak/Higgs
- Mei Bai, Tim Barklow, Rainer Bartoldus, Martin Breidenbach, et al. “C3: A 'Cool' Route to the Higgs Boson and Beyond”, arXiv:2110.15800 [hep-ex] (pdf). (also under EF0)
- Vladimir N Litvinenko, Nikhil Bachhawat, Maria Chamizo-Llatas, Francois Meot, Thomas Roser. ”CERC - Circular e+e- Collider using Energy-Recovery Linac”, arXiv:2203.07358 [physics.acc-ph] (pdf). (also under EF01)
- Vladimir N Litvinenko, Nikhil Bachhawat, Maria Chamizo-Llatas, Yichao Jing, François Méot, Irina Petrushina, Thomas Roser. ”The ReLiC: Recycling Linear e+e− Collider”, arXiv:2203.06476 [hep-ex] (pdf). (also under EF01)
- Sridhara Dasu, Emilio A. Nanni, Michael E. Peskin, Caterina Vernieri, Tim Barklow, Pushpalatha C. Bhat, et al. ”Strategy for Understanding the Higgs Physics: The Cool Copper Collider”, arXiv:2203.07646 [hep-ex] (pdf). (also under EF01, IF0)
- S. Belomestnykh, P.C. Bhat, A. Grassellino, M. Checchin, D. Denisov, et al. ”Higgs-Energy LEptoN (HELEN) Collider based on advanced superconducting radio frequency technology”, arXiv:2203.08211 [physics.acc-ph] (pdf). (also under EF0)
- I. Agapov, M. Benedikt, A. Blondel, M. Boscolo, O. Brunner, et al. ”Future Circular Lepton Collider FCC-ee: Overview and Status”, arXiv:2203.08310 [physics.acc-ph] (pdf).
- Alexander Aryshev, Ties Behnke, Mikael Berggren, James Brau, Nathaniel Craig, et al. ”The International Linear Collider”, arXiv:2203.07622 [physics.acc-ph] (pdf). (also at EF0, NF03, RF06, CF01, TF0, IF0, CommF07)
- Tim Barklow, Su Dong, Claudio Emma, Joseph Duris, Zhirong Huang, et al. ”XCC: An X-ray FEL-based γγ Collider Higgs Factory“, arXiv:2203.08484 [hep-ex] (pdf). (also under AF03)
- E. Barzi, B. C. Barish, R. A. Rimmer, A. Valente-Feliciano, et al. ”An Impartial Perspective for Superconducting Nb3Sn coated Copper RF Cavities for Future Accelerators”, arXiv:2203.09718 [physics.acc-ph] (pdf). (also under EF0, RF0)
- CEPC Accelerator Study Group. ”Circular Electron Positron Collider (CEPC)“, arXiv:2203.09451 [physics.acc-ph] (pdf). (also under EF0)
- E. Barzi, B. Barish, W. A. Barletta, I. F. Ginzburg, S. Di Mitri. ”High Energy & High Luminosity γγ Colliders”, arXiv:2203.08353 [physics.acc-ph] (pdf). (also under EF0, NF0, RF0, CF0, TF0)
AF04: Multi-TeV colliders
- Tao Han, Tong Li, Xing Wang. ”Axion-Like Particles at High Energy Muon Colliders”, arXiv:2203.05484 [hep-ph] (pdf). (also under EF09, TF07)
- Tao Han, Zhen Liu, Lian-Tao Wang, Xing Wang. ”WIMP Dark Matter at High Energy Muon Colliders”, arXiv:2203.07351 [hep-ph] (pdf). (also under EF10, CF01, TF07)
- Darin Acosta, Emanuela Barberis, Nicholas Hurley, Wei Li, Osvaldo Miguel Colin, Darien Wood, Xunwu Zuo. ”The Potential of a TeV-Scale Muon-Ion Collider“, arXiv:2203.06258 [hep-ex] (pdf). (also under EF06)
- Antonio Costantini, Federico De Lillo, Fabio Maltoni, Luca Mantani, Olivier Mattelaer, Richard Ruiz, Xiaoran Zhao. ”Vector boson fusion at multi-TeV muon colliders”, arXiv:2005.10289 [hep-ph] (pdf). (also under EF04, TF07, CompF02)
- Richard Ruiz, Antonio Costantini, Fabio Maltoni, Olivier Mattelaer. ”The Effective Vector Boson Approximation in High-Energy Muon Collisions”, arXiv:2111.02442 [hep-ph] (pdf). (also under EF04, TF07, CompF02)
- John Rogers, Peter McIntyre, Timothy Elliott, Gareth May, Christian Ratcliffe. ”Strategies for conformal REBCO windings“, arXiv:2203.06800 [hep-ex] (pdf). (also under EF0)
- Jingyu Tang, Yuhong Zhang, Qingjin Xu, Jie Gao, Xinchou Lou, Yifang Wang. ”SPPC”, arXiv:2203.07987 [hep-ex] (pdf).
- D. Stratakis, N. Mokhov, M. Palmer, N. Pastrone, T. Raubenheimer, C. Rogers, D. Schulte, et al. ”A Muon Collider Facility for Physics Discovery”, arXiv:2203.08033 [physics.acc-ph] (pdf). (also under EF0)
- M. Benedikt, A. Chance, B. Dalena, D. Denisov, M. Giovannozzi, J. Gutleber, et al. ”Future Circular Hadron Collider FCC-hh: Overview and Status“, arXiv:2203.07804 [physics.acc-ph] (pdf).
- Peter M McIntyre. ”Hybrid conformal REBCO dipole for a next hadron collider”, arXiv:2203.08132 [physics.acc-ph] (pdf). (also under EF0)
AF05: Accelerators for PBC and rare processes
- A. Natochii, T. E. Browder, L. Cao, K. Kojima, D. Liventsev, et al. ”Beam background expectations for Belle II at SuperKEKB“, arXiv:2203.05731 [hep-ex] (pdf).
- M. Toups, R.G. Van de Water, Brian Batell, S.J. Brice, Patrick deNiverville, et al. ”PIP2-BD: GeV Proton Beam Dump at Fermilab's PIP-II Linac”, arXiv:2203.08079 [hep-ex] (pdf). (also under NF03, RF06)
- Matt Toups, R.G. Van de Water, Brian Batell, S.J. Brice, Patrick deNiverville, et al. ”SBN-BD: O(10 GeV) Proton Beam Dump at Fermilab's PIP-II Linac”, arXiv:2203.08102 [hep-ex] (pdf). (also under NF03, RF06)
- William Pellico, Chandra Bhat, Jeffrey Eldred, Carol Johnstone, et al. ”FNAL PIP-II Accumulator Ring“, arXiv:2203.07339 [physics.acc-ph] (pdf). (also relevant to AF02)
- R.G. Van de Water, S.G. Biedron, E.-C. Huang, A.J. Hurd, W.C. Louis, et al. ”LANSCE-PSR Short-Pulse Upgrade for Improved Dark Sector Particle Searches with the Coherent Captain Mills Experiment”, arXiv:2204.01860 [physics.ins-det] (pdf). (also under NF03, RF06)
- Swagato Banerjee, J. Michael Roney (for the US Belle II Group and the Belle II/SuperKEKB e- Polarization Upgrade Working Group). ”Upgrading SuperKEKB with a Polarized Electron Beam: Discovery Potential and Proposed Implementation”, arXiv:2205.12847 [physics.acc-ph] (pdf). (also under EF04, RF0)
- Tom Markiewicz, Tor Raubenheimer, Natalia Toro, members of the LESA construction team. “The SLAC Linac to ESA (LESA) Beamline for Dark Sector Searches and Test Beams”, arXiv:2205.13215 [physics.acc-ph] (pdf). (also under RF0)
AF06: Advanced accelerator concepts
- Robert Ariniello, Sebastien Corde, Xavier Davoine, Henrik Ekerfelt, Frederico Fiuza, et al. ”Channeling Acceleration in Crystals and Nanostructures and Studies of Solid Plasmas: New Opportunities”, arXiv:2203.07459 [physics.acc-ph] (pdf).
- C. Benedetti, S. S. Bulanov, E. Esarey, C. G. R. Geddes A. J. Gonsalves, et al. ”Advanced accelerator linear collider demonstration facility at intermediate energy”, arXiv:2203.08425 [physics.acc-ph] (pdf).
- C. Benedetti, S. S. Bulanov, E. Esarey, C. G. R. Geddes, A. J. Gonsalves, et al. ”Linear collider based on laser-plasma accelerators”, arXiv:2203.08366 [physics.acc-ph] (pdf).
- Chunguang Jing, John Power, Jiahang Shao, Gwanghui Ha, Philippe Piot, et al. ”Continuous and Coordinated Efforts of Structure Wakefield Acceleration (SWFA) Development for an Energy Frontier Machine”, arXiv:2203.08275 [physics.acc-ph] (pdf).
- M. Fuchs, B. A. Shadwick, N. Vafaei-Najafabadi, A. G. R. Thomas, et al. ”Plasma-Based Particle Sources”, arXiv:2203.08379 [physics.acc-ph] (pdf).
- P. Muggli, for the AWAKE Collaboration. ”AWAKE, Plasma Wakefield Acceleration of Electron Bunches for Near and Long Term Particle Physics Applications”, arXiv:2203.09198 [physics.acc-ph] (pdf).
- Claudio Emma, Jeroen van Tilborg, Félicie Albert, Luca Labate, Joel England, Spencer Gessner, Frederico Fiuza, Lieselotte Obst-Huebl, Alexander Zholents, Alex Murokh, James Rosenzweig. ”Near Term Applications driven by Advanced Accelerator Concepts“, arXiv:2203.09094 [physics.acc-ph] (pdf).
- R. J. England, D. Filippetto, G. Torrisi, A. Bacci, G. Della Valle, D. Mascali, et al. ”Laser-Driven Structure-Based Accelerators”, arXiv:2203.08981 [physics.acc-ph] (pdf).
- Aakash A. Sahai, Mark Golkowski, Stephen Gedney, Thomas Katsouleas, et al. ”PetaVolts per meter Plasmonics“, arXiv:2203.11623 [physics.acc-ph] (pdf). (also under EF09, CompF02)
- Leily Kiani, Tong Zhou, Seung-Whan Bahk, Jake Bromage, David Bruhwiler, E. Michael Campbell, et al. ”High average power ultrafast laser technologies for driving future advanced accelerators”, arXiv:2204.10774 [physics.acc-ph] (pdf).
AF07: Accelerator technology R&D
AF07: RF systems
- Alexander Scheinker, Spencer Gessner. ”Adaptive Machine Learning for Time-Varying Systems: Towards 6D Phase Space Diagnostics of Short Intense Charged Particle Beams”, arXiv:2203.04391 [physics.acc-ph] (pdf). (also under CompF03)
- S. Belomestnykh, M. Checchin, D. Johnson, D. Neuffer, S. Posen, E. Pozdeyev, V. Pronskikh, N. Solyak, V. Yakovlev. ”An 8 GeV Linac as the Booster Replacement in the Fermilab Power Upgrade“, arXiv:2203.05052 [physics.acc-ph] (pdf). (also under NF09)
- J. Norem, Z. insepov, A. Hassanein. ”Understanding Vacuum Arcs and Gradient Limits”, arXiv:2203.01847 [physics.plasm-ph] (pdf).
- S. Posen, M. Liepe, G. Eremeev, U. Pudasaini, C.E. Reece. ”Nb3Sn Superconducting Radiofrequency Cavities: a Maturing Technology for Particle Accelerators and Detectors”, arXiv:2203.06752 [physics.acc-ph] (pdf).
- Thomas Roser. ”Sustainability Considerations for Accelerator and Collider Facilities”, arXiv:2203.07423 [physics.acc-ph] (pdf). (also under CommF07)
- Thomas Kroc, Vyacheslav Yakovlev, Charles Thangaraj, Brian Chase, Ram Dhuley. ”The Need for Further Development of Magnetrons as RF Sources for HEP“, arXiv:2203.07888 [physics.acc-ph] (pdf).
- G. Myneni, Hani E. Elsayed-Ali, Md Obidul Islam, Md Nizam Sayeed, G. Ciovati, et al. ”Medium-Grain Niobium SRF Cavity Production Technology for Science Frontiers and Accelerator Applications”, arXiv:2203.07371 [physics.acc-ph] (pdf).
- Alex Gurevich, Takayuki Kubo, James A. Sauls. ”Challenges and opportunities of SRF theory for next generation particle accelerators”, arXiv:2203.08315 [physics.acc-ph] (pdf).
- Emilio A. Nanni, Martin Breidenbach, Caterina Vernieri, Sergey Belomestnykh, et al. ”C^3 Demonstration Research and Development Plan”, arXiv:2203.09076 [physics.acc-ph] (pdf). (also under CommF01)
- Xueying Lu, Jiahang Shao, John Power, Chunguang Jing, Gwanghui Ha, et al. ”Advanced RF Structures for Wakefield Acceleration and High-Gradient Research”, arXiv:2203.08374 [physics.acc-ph] (pdf).
- Salime Boucher, Eric Esarey, Cameron Geddes, Carol Johnstone, Sergey Kutsaev, Billy W. Loo Jr et al. ”Transformative Technology for FLASH Radiation Therapy”, arXiv:2203.11047 [physics.med-ph] (pdf). (also under CommF01)
- M. Martinello, P. Berrutti, B. Giaccone, S. Belomestnykh, M. Checchin, et al. ”Plasma Processing for In-Situ Field Emission Mitigation of Superconducting Radiofrequency (SRF) Cryomodules“, arXiv:2203.12442 [physics.acc-ph] (pdf).
- R. Lawrence Ives, Michael Read, Thuc Bui, David Marsden, et al. ”High Efficiency, Low Cost, RF Sources for Accelerators and Colliders”, arXiv:2203.12043 [physics.acc-ph] (pdf). (also under EF0, RF0, AF03)
- Brandon Weatherford, Emilio A. Nanni, Sami Tantawi. ”Advanced RF Sources R&D for Economical Future Colliders”, arXiv:2203.15984 [physics.acc-ph] (pdf).
- S. Belomestnykh, S. Posen, D. Bafia, S. Balachandran, M. Bertucci, A. Burrill, et al. ”Key directions for research and development of superconducting radio frequency cavities”, arXiv:2204.01178 [physics.acc-ph] (pdf).
- Daniele Filippetto, Carlos Serrano, Qiang Du, Lawrence Doolittle, et al. ”Feedback and control systems for future linear colliders“, arXiv:2204.00701 [physics.acc-ph] (pdf).
- A.- M. Valente-Feliciano, C. Antoine, S. Anlage, G. Ciovati, J. Delayen, et al. ”Next-Generation Superconducting RF Technology based on Advanced Thin Film Technologies and Innovative Materials for Accelerator Enhanced Performance and Energy Reach”, arXiv:2204.02536 [physics.acc-ph] (pdf).
- J. Jaeckel, G. Rybka, L. Winslow, for the Axion Prospects Collaboration. “Axion Dark Matter”, arXiv:2203.14923 [hep-ex] (pdf). (also under RF03, CF02, TF09, IF01)
AF07: Magnets
- Henryk Piekarz, Bradley Claypool, Steven Hays, Matthew Kufer, Vladimir Shiltsev, Alexander Zlobin, Lucio Rossi. ”Fast cycling HTS based superconducting accelerator magnets: Feasibility study and readiness demonstration program driven by neutrino physics and muon collider needs”, arXiv:2203.06253 [physics.acc-ph] (pdf).
- Stoyan Stoynev. ”Test samples and infrastructure for accelerator magnet developments”, arXiv:2203.07274 [physics.acc-ph] (pdf).
- Giorgio Ambrosio, Giorgio Apollinari, Vito Lombardo, Stoyan Stoynev, Mauricio Suarez, George Velev, Paolo Ferracin, Soren Prestemon, GianLuca Sabbi . ”Development and demonstration of next generation technology for Nb_3Sn accelerator magnets with lower cost, improved performance uniformity, and higher operating point in the 12-14 T range”, arXiv:2203.07352 [physics.acc-ph] (pdf).
- Matthias Mentink, Ken-ichi Sasaki, Benoit Cure, Nikkie Deelen, Alexey Dudarev, et al. ”Superconducting detector magnets for high energy physics“, arXiv:2203.07799 [physics.ins-det] (pdf).
- Pierre Védrine, Luis Garcia-Tabarès, Bernhard Auchmann, Amalia Ballarino, et al. ”High Field Magnet Development for HEP in Europe : A Proposal from LDG HFM Expert Panel”, arXiv:2203.08054 [physics.acc-ph] (pdf).
- G. Ambrosio, G. Apollinari, M. Baldini, R. Carcagno, C. Boffo, et al. ”Leading-Edge technology And Feasibility-directed (LEAF) Program aimed at readiness demonstration for Energy Frontier Circular Colliders by the next decade”, arXiv:2203.07654 [physics.acc-ph] (pdf).
- Xiaorong Wang , Anis Ben Yahia , Ernesto Bosque , Paolo Ferracin , Stephen Gourlay, et al. ”REBCO – a silver bullet for our next high-field magnet and collider budget?”, arXiv:2203.08736 [physics.acc-ph] (pdf).
- Ramesh Gupta, Kathleen Amm, Julien Avronsart, Michael Anerella, Anis Ben Yahia, et al. ”Common Coil Dipole for High Field Magnet Design and R&D”, arXiv:2203.08750 [physics.acc-ph] (pdf).
- Maria Baldini, Giorgio Ambrosio, Paolo Ferracin, Piyush Joshi, S. Krave, Linqing Luo, Maxim Marchevsky, G. Vallone, Xiaorong Wang. ”Fiber-optic diagnostic system for future accelerator magnets”, arXiv:2203.08309 [physics.acc-ph] (pdf).
- M. Marchevsky, R. Teyber, G. S. Lee, M. Turqueti, M. Baldini, et al. ”Advancing Superconducting Magnet Diagnostics for Future Colliders“, arXiv:2203.08869 [physics.acc-ph] (pdf).
- Maxim Marchevsky. ”Understanding training in superconducting accelerator magnets using acoustic emission diagnostics”, arXiv:2203.08871 [physics.acc-ph] (pdf).
- F. Kametani, C. Tarantini, E. Hellstrom. ”Fe-based high field superconductors for cost-effective future accelerator magnets”, arXiv:2203.07551 [cond-mat.supr-con] (pdf).
- T. Shen, A.V. Zlobin, D. Larbalestier. ”High Temperature Superconducting Bi-2212 Magnets for Energy Frontier Circular Colliders“, arXiv:2203.10564 [physics.acc-ph] arXiv:2203.10564 [physics.acc-ph] (pdf).
- Yu. I. Alexahin, E. Barzi, E. Gianfelice-Wendt, V. Kapin, V. V. Kashikhin, N. V. Mokhov, I. Novitski, V. Shiltsev, S. Striganov, I. Tropin, A. V. Zlobin. ”Critical problems of energy frontier Muon Colliders: Optics, Magnets and Radiation”, arXiv:2203.10431 [physics.acc-ph] (pdf).
- Yu. Alexahin, E. Gianfelice-Wendt, V. Kapin, V. V. Kashikhin, N. V. Mokhov, S. I. Striganov, I. S. Tropin, A. V. Zlobin. ”Solving Critical Problems of the Muon Collider Higgs Factory: Optics, Magnets and their Protection, Detector Backgrounds“, arXiv:2203.09010 [physics.acc-ph] (pdf).
- Toru Ogitsu, Tatsushi Nakamoto, Ken-ichi Sasaki, Michinaka Sugano, Masami Iio, Kento Suzuki, Makoto Yoshida, Satoshi Awaji, Naoyuki Amemiya. ”R&D works for Superconducting Magnet for Future Accelerator Applications in Japan”, arXiv:2203.12118 [physics.acc-ph] (pdf).
- G. Ambrosio, K. Amm, M. Anerella, G. Apollinari, D. Arbelaez, B. Auchmann, S. Balachandran, et al. ”A Strategic Approach to Advance Magnet Technology for Next Generation Colliders”, arXiv:2203.13985 [physics.acc-ph] (pdf).
- L. Bottura, D. Aguglia, B. Auchmann, T. Arndt, J. Beard, A. Bersani, et al. ”A Work Proposal for a Collaborative Study of Magnet Technology for a Future Muon Collider”, arXiv:2203.13998 [physics.acc-ph] (pdf).
- Emanuela Barzi. “Conductor Properties and Coil Technology for a Bi2212 Dipole Insert for 20 Tesla Hybrid Accelerator Magnets”, arXiv:2204.01072 [physics.acc-ph] (pdf).
- Lance Cooley, David Larbalestier, Kathleen Amm. “Challenges and opportunities to assure future manufacturing of magnet conductors for the accelerator sector”, arXiv:2208.12379 [physics.acc-ph] (pdf).
AF07: Targets and Sources
- Charlotte Barbier, Sujit Bidhar, Marco Calviani, Jeff Dooling, et al. ”Modeling Needs for High Power Target”, arXiv:2203.04714 [physics.acc-ph] (pdf).
- Katsuya Yonehara. ”Radiation hardened beam instrumentations for multi-Mega-Watt beam facilities”, arXiv:2203.06024 [physics.acc-ph] (pdf).
- Kavin Ammigan, Sujit Bidhar, Frederique Pellemoine, Vitaly Pronskikh, et al. ”Novel Materials and Concepts for Next-Generation High Power Target Applications”, arXiv:2203.08357 [physics.acc-ph] (pdf).
- F. Pellemoine, C. Barbier, Y. Sun, K. Ammigan, S. Bidhar, B. Zwaska, et al. ”Irradiation Facilities and Irradiation Methods for High Power Target“, arXiv:2203.08239 [physics.acc-ph] (pdf).
- Alain Lapierre, Janilee Benitez, Masahiro Okamura, Damon Todd, Daniel Xie, Yine Sun. “Ion Sources for Production of Highly Charged Ion Beams”, arXiv:2205.12873 [physics.acc-ph] (pdf).
- Luca Cultrera. “Spin polarized electron beams production beyond III-V semiconductors”, arXiv:2206.15345 [physics.acc-ph] (pdf).
- Daniele Filippetto, Joe Grames, Carlos Hernandez-Garcia, Siddharth Karkare, Philippe Piot, John Power, Yine Sun, Erdong Wang. ”Electron Sources for Accelerators”, arXiv:2207.08875 [physics.acc-ph] (pdf).
submissions/af.txt · Last modified: 2022/10/18 00:46 by mpeskin