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)

• 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)

• 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)

• 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).

• 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)

• 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)

• 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)

• 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).

• 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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