SnowMass2021

• Luis A. Anchordoqui, A. Ariga, T. Ariga, et al. “The Forward Physics Facility: Sites, Experiments, and Physics Potential”, arXiv:2109.10905 [hep-ph] (pdf). (also under EF0, RF0, CF0, TF0)

• M. Askins, Z. Bagdasarian, N. Barros, E. W. Beier, et al. “Theia: Summary of physics program”, arXiv:2202.12839 [hep-ex] (pdf). (also under IF0, 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, RF0, CF0, TF0, AF0, IF0)

• A. Abed Abud, B. Abi, R. Acciarri, et al. (DUNE Collaboration). ”DUNE Physics Summary”, arXiv:2203.06100 [hep-ex] (pdf). (also under RF04, CF01)

• 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 RF0, 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, 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 IF0)

• Dave Casper, Maria Elena Monzani, Benjamin Nachman, Costas Andreopoulos, Stephen Bailey, Deborah Bard, et al. ”Software and Computing for Small HEP Experiments”, arXiv:2203.07645 [hep-ex] (pdf). (also under EF0, RF0, CF0, CompF0)

• 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, RF0, CF0, IF0, CompF02)

• Jaret Heise. ”The Sanford Underground Research Facility”, arXiv:2203.08293 [hep-ex] (pdf). (also under RF0, CF0, IF0, CompF0, UF0, CommF0)

• 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 RF0, CF0, AF0, UF0)

• 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 AF0, CommF01)

• 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, RF0, CF0, TF0, AF01, IF0, CompF0, UF0, CommF0)

• 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 CF0, IF09, UF04)

• J. M. Campbell, M. Diefenthaler, T. J. Hobbs, S. Höche, J. Isaacson, F. Kling, et al. ”Event Generators for High-Energy Physics Experiments”, arXiv:2203.11110 [hep-ph] (pdf). (also under EF0, CF0, TF0, CompF02)

• 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, RF0, CF0, AF0, UF0)

• 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, RF0, CF0, TF0, AF03)

• 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 CF0, IF06)

• 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 CF01, IF08)

• 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, RF0, CF0, TF0, AF01, IF0, CompF0, UF0, CommF0)

• 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, RF0, TF0, AF0)

• 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 IF08)

• J. Bian, F. Di Lodovico, S. Horiuchi, J. G. Learned, et al. (on behalf of the Hyper-Kamiokande Collaboration). “Hyper-Kamiokande Experiment”, arXiv:2203.02029 [hep-ex] (pdf).

• Julia Gehrlein, Serguey Petcov, Martin Spinrath, Arsenii Titov. ”Testing neutrino flavor models”, arXiv:2203.06219 [hep-ph] (pdf). (also under TF11)

• C. Backhouse. ”The CAFAna framework for neutrino analysis”, arXiv:2203.13768 [hep-ex] (pdf). (also under CompF05)

• 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, CF07, IF04, CompF03)

• M. Perrin-Terrin. “Tagged Neutrino Beams”, (pdf available here) (also under AF02, IF03)

• N. Sehgal, et al. ,” CMB-HD: An Ultra-Deep, High Resolution Millimeter Wave Survey over Half the Sky“, arXiv:1906.10134 [astro-ph.CO] (pdf). (also under CF0)

• M. Andriamirado, A. B. Balantekin, C. D. Bass, D. E. Bergeron, E. Bernard, et al. “Physics Opportunities with PROSPECT-II”, arXiv:2202.12343 [hep-ex] (pdf).

• M. A. Acero, C. A. Argüelles, M. Hostert, D. Kalra, G. Karagiorgi, K. J. Kelly, et al. ”Light Sterile Neutrino Searches and Related Phenomenology”, arXiv:2203.07323 [hep-ex] (pdf).

• Brian Batell, Tathagata Ghosh, Keping Xie, for the nu-Test Collaboration. “Heavy Neutral Lepton Searches at the Electron-Ion Collider”, arXiv:2203.06705 [hep-ph] (pdf). (also under EF07, RF04)

• Krzysztof Mękała, Jürgen Reuter, Aleksander Filip Żarnecki. “Heavy neutrinos at future linear e+e− colliders”, arXiv:2202.06703 [hep-ph] (pdf). (also under TF08)

• Diogo Buarque Franzosi, Michele Gallinaro, Richard Ruiz, Thea K. Aarrestad, et al. ”Vector Boson Scattering Processes: Status and Prospects”, arXiv:2106.01393 [hep-ph] (pdf). (also under EF04, TF07)

• M. Abdullah, H. Abele, D. Akimov, G. Angloher, D. Aristizabal-Sierra, C. Augier, et al. ”Coherent elastic neutrino-nucleus scattering: Terrestrial and astrophysical applications”, arXiv:2203.07361 [hep-ph] (pdf).

• 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, CF07, TF11, IF0, UF01)

• 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 RF06, AF05)

• 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 RF06, AF05)

• 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 CF01, IF01, UF03)

• P. S. B. Dev, L. W. Koerner, S. Saad, S. Antusch, M. Askins, K. S. Babu, et al. ”Searches for Baryon Number Violation in Neutrino Experiments”, arXiv:2203.08771 [hep-ex] (pdf). (also under RF04)

• 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, RF06, CF01, TF0, AF03, IF0, CommF07)

• Asli M. Abdullahi, Pablo Barham Alzas, Brian Batell, Alexey Boyarsky, Saneli Carbajal, et al. ”The Present and Future Status of Heavy Neutral Leptons”, arXiv:2203.08039 [hep-ph] (pdf).

• C. A. Argüelles, G. Barenboim, M. Bustamante, P. Coloma, P. B. Denton, et al. ”Beyond the Standard Model effects on Neutrino Flavor“, arXiv:2203.10811 [hep-ph] (pdf).

• 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 RF06, AF05)

• Yahya Almumin, Mu-Chun Chen, Murong Cheng, Victor Knapp-Perez, Yulun Li, Adreja Mondol, Saul Ramos-Sanchez, Michael Ratz, Shreya Shukla. ”Neutrino Flavor Model Building and the Origins of Flavor and CP Violation”, arXiv:2204.08668 [hep-ph] (pdf). (also under TF11)

• J. Berger, D. Brailsford, K. Choi, J. I. Crespo-Anadón, Y. Cui, A. Das, J. A. Dror, A. Habig, Y. Itow, E. Kearns, D. Kim, J. -C. Park, G. Petrillo, C. Rott, M. Sen, V. Takhistov, Y.-T. Tsai, J. Yu. ”Cosmogenic Dark Matter and Exotic Particle Searches in Neutrino Experiments”, arXiv:2207.02882 [hep-ph] [

• Jeffrey M. Berryman, Nikita Blinov, Vedran Brdar, Thejs Brinckmann, Mauricio Bustamante, Francis-Yan Cyr-Racine, et al. “Neutrino Self-Interactions”, arXiv:2203.01955 [hep-ph] (pdf). (also under TF11)

• Brian Batell, Joshua Berger, Vedran Brdar, Alan D. Bross, Janet M. Conrad, Patrick deNiverville, et al. “Dark Sector Studies with Neutrino Beams”, arXiv:2207.06898 [hep-ph] (pdf). (also under RF06, CF01, TF11)

• Zahra Ghorbani Moghaddam. ”Sensitivity to Heavy Neutral Leptons with the SAND detector at the DUNE ND complex”, arXiv:2209.01899 [hep-ex] (pdf). (also relevant to 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 RF03, CF01, IF08, 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 CF01, RF03, IF08, UF03)

• 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 CF07, TF09, IF10)

• A. Ashtari Esfahani, S. Böser, N. Buzinsky, M. C. Carmona-Benitez, et al. (Project 8 Collaboration). “The Project 8 Neutrino Mass Experiment”, arXiv:2203.07349 [nucl-ex] (pdf).

• Kevork N. Abazajian, Nikita Blinov, Thejs Brinckmann, Mu-Chun Chen, Zelimir Djurcic, et al. ”Synergy between cosmological and laboratory searches in neutrino physics”, arXiv:2203.07377 [hep-ph] (pdf). (also under CF7, TF11)

• 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 IF01)

• A.E. Chavarria, C. Galbiati, B. Hernandez-Molinero, Al. Ianni, X. Li, Y. Mei, D. Montanino, X. Ni, C. Peña Garay, A. Piers, H. Wang. ”The Selena Neutrino Experiment”, arXiv:2203.08779 [physics.ins-det] (pdf).

• M. Aker, M. Balzer, D. Batzler, A. Beglarian, J. Behrens, A. Berlev, et al. ”KATRIN: Status and Prospects for the Neutrino Mass and Beyond“, arXiv:2203.08059 [nucl-ex] (pdf).

• 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 RF04, IF01, UF03)

• 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 IF08)

• Vincenzo Cirigliano, Zohreh Davoudi, Wouter Dekens, Jordy de Vries, et al. ”Neutrinoless Double-Beta Decay: A Roadmap for Matching Theory to Experiment”, arXiv:2203.12169 [hep-ph] (pdf). (also under RF04, TF11)

• A. M. Ankowski, A. Ashkenazi, S. Bacca, J. L. Barrow, et al. ”Electron Scattering and Neutrino Physics“, arXiv:2203.06853 [hep-ex] (pdf). (also under TF11)

• L. Alvarez Ruso, A. M. Ankowski, S. Bacca, A. B. Balantekin, J. Carlson, S. Gardiner, et al. ”Theoretical tools for neutrino scattering: interplay between lattice QCD, EFTs, nuclear physics, phenomenology, and neutrino event generators”, arXiv:2203.09030 [hep-ph] (pdf). (also under TF11, CompF02)

• Luis Alvarez-Ruso, Joshua L. Barrow, Leo Bellantoni, Minerba Betancourt, et al. ”Neutrino Scattering Measurements on Hydrogen and Deuterium”, arXiv:2203.11298 [hep-ex] (pdf). (also under TF11)

• 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 CF01, IF08; also relevant to NF02, NF03, NF04, NF05, NF08, NF09, NF10)

• Andreas S. Kronfeld, Tanmoy Bhattacharya, Thomas Blum, Norman H. Christ, Carleton DeTar, William Detmold, Robert Edwards, Anna Hasenfratz, et al. ”Lattice QCD and Particle Physics”, arXiv:2207.07641 [hep-lat] (pdf). (also under EF0, RF0, CF0, TF05, CompF02)

• Oluwatomi Akindele, Nathaniel Bowden, Rachel Carr, Andrew Conant, Milind Diwan, et al. “Nu Tools: Exploring Practical Roles for Neutrinos in Nuclear Energy and Security”, arXiv:2112.12593 [hep-ph] (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 AF02, IF09, UF01, CommF07)

• Jose Alonso (for the IsoDAR Collaboration). ”Broader Impact of Cyclotron-based Neutrino Sources“, arXiv:2203.08106 [hep-ex] (pdf).

• Sergei Nagaitsev, Valeri Lebedev ,”A Cost-Effective Upgrade Path for the Fermilab Accelerator Complex“, arXiv:2111.06932 [physics.acc-ph] (pdf). (also under AF02)

• 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 AF07)

• 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 AF02)

• Weidong Bai, Milind Vaman Diwan, Maria Vittoria Garzelli, Yu Seon Jeong, Karan Kumar, Mary Hall Reno. ”Prompt electron and tau neutrinos and antineutrinos in the forward region at the LHC”, arXiv:2203.07212 [hep-ph] (pdf). (also under EF06, CF07)

• O. A. Akindele, J. M. Berryman, N. S. Bowden, R. Carr, A. J. Conant, et al. ”High Energy Physics Opportunities Using Reactor Antineutrinos“, arXiv:2203.07214 [hep-ex] (pdf).

• L. Alvarez Ruso, T. Alves, S. Boyd, A. Bross, P. R. Hobson, et al. (for the nuSTORM Collaboration). ”Neutrinos from Stored Muons (nuSTORM)”, arXiv:2203.07545 [hep-ex] (pdf). (also under RF04)

• 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 AF02)

• 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, AF0)

• 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 AF02)

• 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 RF05, AF02)

• 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 IF08)

• 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 CF01, IF03)

• 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 CF01, IF05)

• Bonnie Fleming, Kyle Knoepfel, Meifeng Lin, Xin Qian, et al. ”DUNE Software and High Performance Computing”, arXiv:2203.06104 [hep-ex] (pdf). (also under CompF01)

• Benjamin Monreal. ”High-pressure TPCs in pressurized caverns: opportunities in dark matter and neutrino physics”, arXiv:2203.06262 [hep-ph] (pdf). (also under CF01, IF08, UF03)

• Saba Para, Michele Weber, Clara Cuesta, Ines Gil-Botella, Sergio Manthey, et al. ”SoLAr: Solar Neutrinos in Liquid Argon”, arXiv:2203.07501 [hep-ex] (pdf).

• 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 IF02)

• 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 CF01, IF08, UF01)

• 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 IF09)

• Henry Frisch. “Adding Stroboscopic Muon Information For Reduction of Systematic Uncertainties in DUNE”, (pdf available here)

• 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 CF01, IF08)

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