SnowMass2021

• M. Askins, Z. Bagdasarian, N. Barros, E. W. Beier, et al. “Theia: Summary of physics program”, arXiv:2202.12839 [hep-ex] (pdf). (also under NF0, UF0)

• 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, AF0)

• 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, AF0, IF0)

• A. Abed Abud, B. Abi, R. Acciarri, M. A. Acero, M. R. Adames, G. Adamov, et al. ”A Gaseous Argon-Based Near Detector to Enhance the Physics Capabilities of DUNE”, arXiv:2203.06281 [hep-ex] (pdf). (also under NF0)

• Roshan Mammen Abraham, Jaime Alvarez-Muñiz, Carlos A. Argüelles, Akitaka Ariga, Tomoko Ariga, et al. ”Tau Neutrinos in the Next Decade: from GeV to EeV”, arXiv:2203.05591 [hep-ph] (pdf). (also under EF09, NF03, CF07, TF11, UF01)

• Sergo Jindariani, Federico Meloni, Nadia Pastrone, Chiara Aimè, Nazar Bartosik, Emanuela Barzi, et al. ”Promising Technologies and R&D Directions for the Future Muon Collider Detectors”, arXiv:2203.07224 [physics.ins-det] (pdf). (also under EF0)

• 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, AF03)

• Nazar Bartosik, Karol Krizka, Simone Pagan Griso, Chiara Aimè, Aram Apyan, et al. ”Simulated Detector Performance at the Muon Collider”, arXiv:2203.07964 [hep-ex] (pdf). (also under EF0)

• Sunanda Banerjee, D. N. Brown, David N. Brown, Paolo Calafiura, Jacob Calcutt, Philippe Canal, et al. ”Detector and Beamline Simulation for Next-Generation High Energy Physics Experiments”, arXiv:2203.07614 [hep-ex] (pdf). (also under EF0, NF0, RF0, CF0, CompF02)

• Adrian Liu, Laura Newburgh, Benjamin Saliwanchik, Anže Slosar. ”21cm Radiation as a Probe of Physics Across Cosmic Ages”, arXiv:2203.07864 [astro-ph.CO] (pdf). (also under CF05)

• Kevork Abazajian, Arwa Abdulghafour, Graeme E. Addison, Peter Adshead, Zeeshan Ahmed, et al. ”CMB-S4 White Paper”, arXiv:2203.08024 [astro-ph.CO] (pdf). (also under NF0, CF0)

• Jaret Heise. ”The Sanford Underground Research Facility”, arXiv:2203.08293 [hep-ex] (pdf). (also under NF0, RF0, CF0, CompF0, UF0, CommF0)

• 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, AF03, CommF07)

• 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, AF0)

• 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, AF01, CompF0, UF0, CommF0)

• Francesco Forti (for the Belle II Collaboration). ”The Belle II Detector Upgrade Program”, arXiv:2203.11349 [hep-ex] (pdf).

• 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, AF0)

• LHCb Collaboration. ”Future physics potential of LHCb”, (pdf available here) . (also under RF0)

• 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, AF0)

• 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, AF01, CompF0, UF0, CommF0)

• G. Wang, C. L. Chang, M. Lisovenko, V. Novosad, V. G. Yefremenko, J. Zhang. ”Light Dark Matter Detection with Hydrogen-rich Crystals and Low-Tc TES Detectors”, arXiv:2201.04219 [physics.ins-det] (pdf). (also under CF01)

• Reza Ebadi, Mason C. Marshall, David F. Phillips, Tao Zhou, Michael Titze, et al. ”Directional Detection of Dark Matter Using Solid-State Quantum Sensing“, arXiv:2203.06037 [physics.ins-det] (pdf). (also under CF01)

• Daniel Carney, Thomas Cecil, John Ellis, R.F. Garcia Ruiz, Andrew A. Geraci, et al. ”Quantum Sensors for HEP Science – Interferometers, Mechanics, Traps, and Clocks”, arXiv:2203.07250 [quant-ph] (pdf). (also under RF0, CF0)

• 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, AF01, CompF06)

• Alaina Attanasio, Sunil A. Bhave, Carlos Blanco, Daniel Carney, Marcel Demarteau, et al. (Windchime Collaboration). ”The Windchime Project”, arXiv:2203.07242 [hep-ex] (pdf). (also under CF01, TF08)

• Daniel Carney, Nirmal Raj, Yang Bai, Joshua Berger, Carlos Blanco, Joseph Bramante, et al. ”Ultraheavy particle dark matter”, arXiv:2203.06508 [hep-ph] (pdf). (also under CF01, TF08)

• Joel Ullom, Daniel Schmidt, Simon Bandler, Thomas Stevenson, Mark Croce, et al. ”Measuring the electron neutrino mass using the electron capture decay of 163Ho”, arXiv:2203.07572 [nucl-ex] (pdf). (also under NF05)

• M.F. Albakry, I. Alkhatib, D.W.P. Amaral, T. Aralis, T. Aramaki, I.J. Arnquist, I. Ataee Langroudy, et al. ”A Strategy for Low-Mass Dark Matter Searches with Cryogenic Detectors in the SuperCDMS SNOLAB Facility“, arXiv:2203.08463 [physics.ins-det] (pdf). (also under NF03, CF01, UF03)

• A. Armatol, C. Augier, F. T. Avignone III, O. Azzolini, M. Balata, K. Ballen, A. S. Barabash, et al. ”Toward CUPID-1T”, arXiv:2203.08386 [nucl-ex] (pdf). (also under NF05, RF04, UF03)
• Dmitry Budker, Thomas Cecil, Timothy E. Chupp, Andrew A. Geraci, et al. ”Quantum Sensors for High Precision Measurements of Spin-dependent Interactions“, arXiv:2203.09488 [quant-ph] (pdf). (also under CF02)

• Asher Berlin, Sergey Belomestnykh, Diego Blas, Daniil Frolov, Anthony J. Brady, Caterina Braggio, et al. ”Searches for New Particles, Dark Matter, and Gravitational Waves with SRF Cavities”, arXiv:2203.12714 [hep-ph] (pdf). (also under CF0, TF0, CompF06)

• D. Antypas, A. Banerjee, C. Bartram, M. Baryakhtar, J. Betz, et al. ”New Horizons: Scalar and Vector Ultralight Dark Matter”, arXiv:2203.14915 [hep-ex] (pdf). (also under RF03, CF02, TF09)

• 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, AF07)

• Joshua R. Klein, Tomi Akindele, Adam Bernstein, Steven Biller, Nathaniel Bowden, et al. ”Future Advances in Photon-Based Neutrino Detectors”, arXiv:2203.07479 [physics.ins-det] (pdf). (also under NF10)

• Jonathan Asaadi, Dan Baxter, Karl K. Berggren, Davide Braga, Serge A. Charlebois, et al. ”Photon counting from the vacuum ultraviolet to the short wavelength infrared using semiconductor and superconducting technologies”, arXiv:2203.12542 [physics.ins-det] (pdf).

• M.R. Hoeferkamp, S. Seidel, S. Kim, J. Metcalfe, et al. “Novel Sensors for Particle Tracking”, arXiv:2202.11828 [physics.ins-det] (pdf).

• Krystal Alfonso, Gabriela R. Araujo, Laura Baudis, Nathaniel Bowden, et al. ”Passive low energy nuclear recoil detection with color centers – PALEOCCENE”, arXiv:2203.05525 [hep-ex] (pdf). (also under NF10, CF01)

• S. Mazza, R. Lipton, R. Patti, R. Islam. ”Integration and Packaging”, arXiv:2203.06093 [hep-ex] (pdf).

• D. Ally, L. Carpenter, T. Holmes, L. Lee, P. Wagenknecht. ”Strategies for Beam-Induced Background Reduction at Muon Colliders”, arXiv:2203.06773 [physics.ins-det] (pdf). (also under EF0)

• Nicole Apadula, W. Armstrong, James Brau, Martin Breidenbach, R. Caputo, et al. ”Monolithic Active Pixel Sensors on CMOS technologies“, arXiv:2203.07626 [physics.ins-det] (pdf).

• P.Barletta, M.Cerullo, C.Haber, S.E.Holland, J.Muth, B.Sekely. ”Fast Timing With Silicon Carbide Low Gain Avalanche Detectors”, arXiv:2203.08554 [physics.ins-det] (pdf).

• Doug Berry, Valentina Cairo, Angelo Dragone, Matteo Centis-Vignali, Gabriele Giacomini, et al. ”4-Dimensional Trackers”, arXiv:2203.13900 [physics.ins-det] (pdf).

• B. Nachman, T. Peltola, P. Asenov, M. Bomben, R. Lipton, F. Moscatelli, E. A. Narayanan, F. R. Palomo, D. Passeri, S. Seidel, X. Shi, J. Sonneveld. ”Simulations of Silicon Radiation Detectors for High Energy Physics Experiments”, arXiv:2203.06216 [physics.ins-det] (pdf).

• Eric Anderssen, Andreas Werner Jung, Sushrut Karmarkar, Abraham Matthew Koshy. ”Light-weight and highly thermally conductive support structures for future tracking detectors”, arXiv:2203.14347 [physics.ins-det] (pdf).

• M. Perrin-Terrin. “Tagged Neutrino Beams”, (pdf available here) (also under NF01, AF02)

• A. V. Kotwal, “A fast method for particle tracking and triggering using small-radius silicon detectors”, arXiv:1910.14149 [physics.ins-det] (pdf). (also under EF09)

• K. F. Di Petrillo, J. N. Farr, C. Guo, T. R. Holmes, J. Nelson, K. Pachal. ”Track-Based Triggers for Exotic Signatures”, arXiv:2203.07314 [hep-ex] (pdf). (also under EF09)

• Rainer Bartoldus, Catrin Bernius, David W. Miller. ”Innovations in trigger and data acquisition systems for next-generation physics facilities“, arXiv:2203.07620 [hep-ex] (pdf). (also under CompF03, CommF01)

• Philip Harris, Erik Katsavounidis, William Patrick McCormack, Dylan Rankin, Yongbin Feng, et al. ”Physics Community Needs, Tools, and Resources for Machine Learning”, arXiv:2203.16255 [cs.LG] (pdf). (also under EF0, NF01, CF07, CompF03)

• M. Begel, J. Eisch, M. Garcia-Sciveres, A. Paramonov, M. Trovato, J. Zhang. ”Readout Technologies for Future Detectors”, arXiv:2203.14894 [physics.ins-det] (pdf).

• C. A. J. O'Hare, D. Loomba, K. Altenmüller, H. Álvarez-Pol, F. D. Amaro, et al. ”Recoil imaging for dark matter, neutrinos, and physics beyond the Standard Model”, arXiv:2203.05914 [physics.ins-det] (pdf). (also under NF10, CF01)

• K. Black, A. Colaleo, C. Aimè, M. Alviggi, C. Aruta, M. Bianco, I. Balossino, et al. ”MPGDs for tracking and muon detection at future high energy physics colliders”, arXiv:2203.06525 [physics.ins-det] (pdf).

• Andreas Löschcke Centeno, Christian Wessel, Peter M. Lewis, Oskar Hartbrich, Jochen Kaminski, Carlos Mariñas, Sven Vahsen. ”A TPC-based tracking system for a future Belle II upgrade”, arXiv:2203.07287 [physics.ins-det] (pdf).

• Kondo Gnanvo, Matt Posik, Fernando Barbosa, Daniel Bazin, Francesco Bossú, Marco Cortesi, Silvia Dalla Torre, et al. ”Micro Pattern Gaseous Detectors for Nuclear Physics”, arXiv:2203.06309 [physics.ins-det] (pdf).

• Alain Bellerive, Jochen Kaminski, Peter M. Lewis, Paul Colas, et al. ”MPGDs for TPCs at future lepton colliders”, arXiv:2203.06267 [physics.ins-det] (pdf).

• K. Dehmelt, A. White, M. Alviggi, M. T. Camerlingo, V. Canale, V. D'amico, M. DellaPietra, et al. ”MPGDs: Recent advances and current R&D“, arXiv:2203.06562 [physics.ins-det] (pdf).

• C.-H. Yeh, S. V. Chekanov, A. V. Kotwal, J. Proudfoot, S. Sen, N. V. Tran, S.-S. Yu, “Studies of granularity of a hadronic calorimeter for tens-of-TeV jets at a 100 TeV pp collider”, arXiv:1901.11146 [physics.ins-det] (pdf). (also under EF09)

• S. V. Chekanov, A. V. Kotwal, C.-H. Yeh, and S.-S. Yu, “Physics potential of timing layers in future collider detectors”, arXiv:2005.05221 [physics.ins-det] (pdf). (also under EF09)

• I. Pezzotti, Harvey Newman, J. Freeman, J. Hirschauer, et al. ”Dual-Readout Calorimetry for Future Experiments Probing Fundamental Physics”, arXiv:2203.04312 [physics.ins-det] (pdf).

• Minfang Yeh, Ren-Yuan Zhu. ”Materials for Future Calorimeters”, arXiv:2203.07154 [physics.ins-det] (pdf).

• S. V. Chekanov, F.Simon, V. Boudry, W. Chung, P. W. Gorham, M. Nguyen, et al. ”Precision timing for collider-experiment-based calorimetry“, arXiv:2203.07286 [physics.ins-det] (pdf).

• Chen Hu, Liyuan Zhang, Ren-Yuan Zhu. ”Inorganic Scintillators for Future HEP Experiments”, arXiv:2203.06731 [physics.ins-det] (pdf).

• Chen Hu, Liyuan Zhang, Ren-Yuan Zhu. ”Ultrafast Inorganic Crystals with Mass Production Capability for Future High-Rate Experiments”, arXiv:2203.06788 [physics.ins-det] (pdf). (also under EF01, RF05)

• David R Winn. ”Novel Low Workfunction Semiconductors for Calorimetry and Detection: High Energy, Dark Matter and Neutrino Phenomena“, arXiv:2203.09939 [physics.ins-det] (pdf).

• David R Winn, Yasar Onel. ”Photomultipliers as High Rate Radiation-Resistant In-Situ Sensors in Future Experiments”, arXiv:2203.09941 [physics.ins-det] (pdf).

• T. Anderson, T. Barbera, D. Blend, N. Chigurupati, B. Cox, P. Debbins, et al. ”RADiCAL: Precision-timing, Ultracompact, Radiation-hard Electromagnetic Calorimetry”, arXiv:2203.12806 [physics.ins-det] (pdf). (also under EF04)

• Randal Ruchti, Katja Kruger. ”Particle Flow Calorimetry“, arXiv:2203.15138 [physics.ins-det] (pdf). (also under EF0)

• Sergey Pereverzev, Gianpaolo Carosi, Viacheslav Li. ”Superconducting Nanowire Single-Photon Detectors and effect of accumulation and unsteady releases of excess energy in materials”, arXiv:2204.01919 [quant-ph] (pdf). (also under NF0, CF0)

• D. Braga, G. Carini, G. Deptuch, A. Dragone, F. Fahim, K. Flood, et al. ”Electronics for Fast Timing”, arXiv:2204.00149 [physics.ins-det] (pdf).

• Timothy Andeen, Julia Gonski, James Hirschauer, James Hoff, Gabriel Matos, John Parsons. ”Readout for Calorimetry at Future Colliders”, arXiv:2204.00098 [physics.ins-det] (pdf).

• M. Artuso, C. Grace, T. Heim, A. Dragone, R. Herbst, L. Rota, G. Carini, G. Deptuch, M. Newcomer, K. Flood. “Enabling Capabilities for Infrastructure and Workforce in Electronics and ASICs”, arXiv:2204.07285 [physics.ins-det] (pdf).

• M. Newcomer, J. Ye, A. Paramonov, M. Garcia-Sciveres, A. Prosser. “Fast (Optical) Links”, arXiv:2203.15062 [physics.ins-det] (pdf).

• E. Angelico, A. Elagin, H. J. Frisch, and M. Wetstein, “Measuring the Neutrino Event Time in Liquid Argon by a Post-Reconstruction One-parameter Fit”, arXiv:2004.00580 [physics.ins-det] (pdf). (also under NF01)

• D. Caratelli, W. Foreman, A. Friedland, S. Gardiner, I. Gil-Botella, et al. “Low-Energy Physics in Neutrino LArTPCs”, arXiv:2203.00740 [physics.ins-det] (pdf). (also under NF10)

• J. Aalbers, K. Abe, V. Aerne), F. Agostini, S. Ahmed Maouloud, D.S. Akerib, et al. ”A Next-Generation Liquid Xenon Observatory for Dark Matter and Neutrino Physics”, arXiv:2203.02309 [physics.ins-det] (pdf). (also under NF04, RF03, CF01, UF03)

• Benjamin Monreal. ”High-pressure TPCs in pressurized caverns: opportunities in dark matter and neutrino physics”, arXiv:2203.06262 [hep-ph] (pdf). (also under NF10, CF01, UF03)

• Junhui Liao, Yuanning Gao, Zhuo Liang, Zebang Ouyang, Chaohua Peng, Fengshou Zhang, Lei Zhang, Jian Zheng, Jiangfeng Zhou. ”Introduction to a low-mass dark matter project, ALETHEIA: A Liquid hElium Time projection cHambEr In dArk matter“, arXiv:2203.07901 [astro-ph.IM] (pdf). (also under NF04, CF01, RF03, UF03)

• A. Avasthi, T. Bezerra, A. Borkum, E. Church, J. Genovesi, J. Haiston, C. M. Jackson, et al. ”Low Background kTon-Scale Liquid Argon Time Projection Chambers”, arXiv:2203.08821 [physics.ins-det] (pdf). (also under NF10, CF01, UF01)

• B. J. P. Jones, F. W. Foss, J. A. Asaadi, E. D. Church, J. deLeon, E. Gramellini, O. H. Seidel, T. T. Vuong. ”The Ion Fluorescence Chamber (IFC): A new concept for directional dark matter and topologically imaging neutrinoless double beta decay searches”, arXiv:2203.10198 [physics.ins-det] (pdf). (also under NF05)

• D. Akimov, S. Alawabdeh, P. An, A. Arteaga, C. Awe, P.S. Barbeau, C. Barry, et al. ”The COHERENT Experimental Program”, arXiv:2204.04575 [hep-ex] (pdf). (also under NF06, CF01)

• E. Alfonso-Pita, M. Baker, E. Behnke, M. Bressler, B. Broerman, K. Clark, J. Corbett, C. Cripe, M. Crisler, C.E. Dahl, K. Dering, A. de St. Croix, D. Durnford, et al. “Scintillating Bubble Chambers: Liquid-noble Bubble Chambers for Dark Matter and CEνNS Detection”, arXiv:2207.12400 [physics.ins-det] (pdf). (also under NF10, CF01)

• J. Asaadi, P.S. Barbeau, B. Bodur, A. Bross, E. Conley, Y. Efremenko, M. Febbraro, et al. ”Physics Opportunities in the ORNL Spallation Neutron Source Second Target Station Era”, arXiv:2209.02883 [hep-ex] (pdf). (also under NF0, CF01)

• Y. Li, C. Zhang, M. Diwan, X. Qian, S. Martynenko, C. Thorn, et al. ”Cryogenic User Facilities for R&D on Noble Liquid Detectors and Low Temperature Devices“, arXiv:2203.06146 [physics.ins-det] (pdf).

• 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, AF02, UF01, CommF07)

• Cristiano Alpigiani, Juan Carlos Arteaga-Velázquez, Austin Ball, Liron Barak, et al. ”Recent Progress and Next Steps for the MATHUSLA LLP Detector”, arXiv:2203.08126 [hep-ex] (pdf). (also under EF09)

• David R Winn, Y. Onel, B. Bilki. ”High Rate and High Precision Timing and Calorimeter Detectors”, arXiv:2203.09942 [physics.ins-det] (pdf).

• Henning O. Back, Walter Bonivento, Mark Boulay, Eric Church, Steven R. Elliott, et al. ”A Facility for Low-Radioactivity Underground Argon”, arXiv:2203.09734 [physics.ins-det] (pdf). (also under NF0, CF0, UF04)

• Evan Angelico, Andrey Elagin, Henry J. Frisch, Matthew Wetstein. ”Measuring the Neutrino Event Time in Liquid Argon by a Post-Reconstruction One-parameter Fit”, arXiv:2004.00580 [physics.ins-det] (pdf). (also under NF10)

• Thomas Cecil, Clarence L. Chang, Shannon M. Duff, Dale Li, Rupak Mahapatra, Mark Platt, Kevin K. Ryu. ”Superconducting Sensor Fabrication Capabilities for HEP Science”, arXiv:2203.15978 [physics.ins-det] (pdf).

• M. Hartz, P. Merkel, E. Niner, E. Prebys, N. Toro. “Test Beam and Irradiation Facilities”, arXiv:2203.09944 [physics.acc-ph] (pdf).

• Markus Ackermann, Sanjib K. Agarwalla, Jaime Alvarez-Muñiz, Carlos A. Argüelles, et al. ”High-Energy and Ultra-High-Energy Neutrinos”, arXiv:2203.08096 [hep-ph] (pdf). (also under NF04, CF07, TF09)

• Clarence L. Chang, Kevin M. Huffenberger, Bradford A. Benson, Federico Bianchini, et al. ”Cosmic Microwave Background Measurements White Paper”, arXiv:2203.07638 [astro-ph.CO] (pdf). (also under CF05, TF09)

• Peter S. Barry, Clarence. C. Chang, Sunil Golwala, Erik Shirokoff. ”Large-Format, Transmission-Line-Coupled Kinetic Inductance Detector Arrays for HEP at Millimeter Wavelengths“, arXiv:2203.15902 [physics.ins-det]

(pdf).

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