Snowmass Fermilab – Snowmass resources co-authored by Fermilab scientists

213 Snowmass whitepapers with Fermilab co-authors (cross-listed entries only listed once here)

Submissions to the Snowmass 2021 Proceedings – Energy Frontier

Papers of general interest to this frontier

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 NF0, RF0, CF0, TF0)

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 AF03)

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 NF0, RF0, CF0, TF0, AF0, IF0)

Jorge De Blas, Dario Buttazzo, Rodolfo Capdevilla, David Curtin, Roberto Franceschini, et al. ”The physics case of a 3 TeV muon collider stage”, arXiv:2203.07261 [hep-ph] (pdf). (also under TF0)

Chiara Aimè, Aram Apyan, Mohammed Attia Mahmoud, Nazar Bartosik, Fabian Batsch, Alessandro Bertolin, et al. ”Muon Collider Physics Summary”, arXiv:2203.07256 [hep-ph] (pdf). (also under TF0)

K. Black, K. Bloom, J.E. Brau, M. Demarteau, D. Denisov, D. Elvira, S. Eno, R. Hirosky, J. Hirschauer, R. Lipton, C. Paus, E. Stern, A. White, G.W. Wilson. “ Enabling U.S. participation in Future Higgs Factories”, arXiv:2203.06255 [hep-ex] (pdf).

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 NF0, RF0, TF0, AF0, IF0)

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 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 TF0, AF0)

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 NF0, RF0, CF0, CompF0)

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 AF04)

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 IF0)

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 NF0, RF0, CF0, IF0, CompF02)

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 NF09, AF0)

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 AF03)

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 NF03, RF06, CF01, TF0, AF03, IF0, CommF07)

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 NF0, RF0, CF0, TF0, AF01, IF0, CompF0, UF0, CommF0)

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 RF0, AF03)

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 NF0, CF0, TF0, CompF02)

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 NF01, CF07, IF04, CompF03)

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 NF0, RF0, CF0, TF0, AF03)

EF01: Higgs boson properties and couplings

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 AF0)

Daniel Diaz, Javier Duarte, Sanmay Ganguly, Raghav Kansal, Samadrita Mukherjee, Brian Sheldon, Si Xie. ”Improving Di-Higgs Sensitivity at Future Colliders in Hadronic Final States with Machine Learning”, arXiv:2203.07353 [hep-ph] (pdf). (also under CompF03)

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 AF03, IF0)

Angela Taliercio, Paola Mastrapasqua, Claudio Caputo, Pietro Vischia, Nicola De Filippis, Pushpa Bhat. ”Higgs Self Couplings Measurements at Future proton-proton Colliders”, arXiv:2203.08042 [hep-ex] (pdf).

EF02: Higgs boson as a portal to new physics

EF03: Heavy flavor and top quark physics

EF04: Electroweak precision physics and constraining new physics

Brad Abbott, Aram Apyan, Bianca Azartash-Namin, Veena Balakrishnan, Jeffrey Berryhill, et al. ”Anomalous quartic gauge couplings at a muon collider“, arXiv:2203.08135 [hep-ex] (pdf).

EF05: Precision QCD

Ben Nachman, Salvatore Rappoccio, Nhan Tran, Johan Bonilla, Grigorios Chachamis, et al. ”Jets and Jet Substructure at Future Colliders”, arXiv:2203.07462 [hep-ph] (pdf).

D. d’Enterria, S. Kluth, G. Zanderighi, C. Ayala, M.A. Benitez-Rathgeb, J. Bluemlein, D. Boito, et al. ”The strong coupling constant: State of the art and the decade ahead”, arXiv:2203.08271 [hep-ph] (pdf).

EF06: Hadronic struture and forward QCD

S. Amoroso, A. Apyan, N. Armesto, R. D. Ball, V. Bertone, C. Bissolotti, et al. ”Proton structure at the precision frontier”, arXiv:2203.13923 [hep-ph] (pdf). (also under TF06; also relevant to EF05, EF07)

EF07: Heavy ions

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 TF0, AF0, IF0)

EF08: Beyond the Standard Model: model-specific explorations

EF09: Beyond the Standard Model: more general explorations

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 IF06)

Robert M. Harris, Emine Gurpinar Guler, Yalcin Guler, “Sensitivity to Dijet Resonances at Proton-Proton Colliders”, arXiv:2202.03389 [hep-ex] (pdf).

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 IF04)

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 IF09)

Marcela Carena, Jonathan Kozaczuk, Zhen Liu, Tong Ou, Michael J. Ramsey-Musolf, Jessie Shelton, Yikun Wang, Ke-Pan Xie. ”Probing the Electroweak Phase Transition with Exotic Higgs Decays”, arXiv:2203.08206 [hep-ph] (pdf). (also under CF07)

Guillaume Albouy, Jared Barron, Hugues Beauchesne, Elias Bernreuther, Marcella Bona, et al. ”Theory, phenomenology, and experimental avenues for dark showers“, arXiv:2203.09503 [hep-ph] (pdf). (also under TF07)

EF10: Beyond the Standard Model: dark matter at colliders

Antonio Boveia, Caterina Doglioni, Boyu Gao, Josh Greaves, Philip Harris, Katherine Pachal, et al. “Summarizing experimental sensitivities of collider experiments to dark matter models and comparison to other experiments”, arXiv:2206.03456 [hep-ph] (pdf).

Submissions to the Snowmass 2021 Proceedings – Neutrino Physics Frontier

Papers of general interest to this frontier

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)

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)

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)

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)

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)

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)

NF01: Neutrino oscillations

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)

NF02: Sterile neutrinos

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).

NF03: Beyond the Standard Model

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).

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)

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).

NF04: Neutrinos from natural sources

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)

NF05: Neutrino properties

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)

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)

NF06: Neutrino interaction cross sections

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)

NF07: Neutrino Applications

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)

NF08: Theory of Neutrinos -> see TF11

NF09: Artificial Neutrino Sources

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)

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)

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)

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)

NF10: Neutrino Detectors

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)

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)

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)

Submissions to the Snowmass 2021 Proceedings – Rare Processes and Precision Measurements

Papers of general interest to this frontier

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, TF0, AF0)

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, AF0)

REDTOP Collaboration. ”The REDTOP experiment: Rare η/η′ Decays To Probe New Physics”, arXiv:2203.07651 [hep-ex] (pdf).

RF01: Weak decays of b and c

The ATLAS and CMS Collaborations. ”Physics with the Phase-2 ATLAS and CMS Detectors”, (pdf available here). (also under EF0, CF01)

RF02: Weak decays of strange and light quarks

E. Goudzovski, D. Redigolo, K. Tobioka, J. Zupan, et al., “New Physics Searches at Kaon and Hyperon Factories”, arXiv:2201.07805 [hep-ph] (pdf).

The KOTO, LHCb, NA62/KLEVER Collaborations, and the US Kaon Interest Group. ”Searches for new physics with high-intensity kaon beams”, arXiv:2204.13394 [hep-ex] (pdf).

RF03: Fundamental physics in small experiments (axions, EDMs, precision muon measurements)

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, CF01, IF08, UF03)

W. Altmannshofer, H. Binney, E. Blucher, D. Bryman, L. Caminada, et al. (PIONEER Collaboration). ”Testing Lepton Flavor Universality and CKM Unitarity with Rare Pion Decays in the PIONEER experiment”, arXiv:2203.05505 [hep-ex] (pdf).

Ricardo Alarcon, Jim Alexander, Vassilis Anastassopoulos, Takatoshi Aoki, et al. ”Electric dipole moments and the search for new physics”, arXiv:2203.08103 [hep-ph] (pdf).

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 CF02, TF09, IF01)

G. Colangelo, M. Davier, A. X. El-Khadra, M. Hoferichter, C. Lehner, L. Lellouch, et al. ”Prospects for precise predictions of a_μ in the Standard Model”, arXiv:2203.15810 [hep-ph] (pdf). (also under TF05)

RF04: Baryon and lepton number violation

A. Abed Abud, B. Abi, R. Acciarri, et al. (DUNE Collaboration). ”DUNE Physics Summary”, arXiv:2203.06100 [hep-ex] (pdf). (also under NF0, CF01)

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 NF09)

RF05: Charged lepton flavor violation (electrons, muons, and taus)

K. Byrum, S. Corrodi, Y. Oksuzian, P. Winter, L. Xia, A. W. J. Edmonds, et al. ”Mu2e-II: Muon to electron conversion with PIP-II”, arXiv:2203.07569 [hep-ex] (pdf).

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, AF02)

M. Aoki, R. B. Appleby, M. Aslaninejad, R. Barlow, R. H. Bernstein, C. Bloise, L. Calibbi, et al. ”A New Charged Lepton Flavor Violation Program at Fermilab”, arXiv:2203.08278 [hep-ex] (pdf).

RF06: Dark sector studies at low energies

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, 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 NF03, AF05)

Torsten Åkesson, Nikita Blinov, Lukas Brand-Baugher, Cameron Bravo, et al. ”Current Status and Future Prospects for the Light Dark Matter eXperiment (LDMX)”, arXiv:2203.08192 [hep-ex] (pdf).

Aram Apyan, Brian Batell, Asher Berlin, Nikita Blinov, Caspian Chaharom, et al. ”DarkQuest: A dark sector upgrade to SpinQuest at the 120 GeV Fermilab Main Injector”, arXiv:2203.08322 [hep-ex] (pdf).

RF07: Hadron spectroscopy

John Bulava, Raúl Briceño, William Detmold, Michael Döring, et al. ”Hadron Spectroscopy with Lattice QCD“, arXiv:2203.03230 [hep-lat] (pdf). (also under TF05)

Ruslan Chistov, Vaia Papadimitriou, Sergey Polikarpov, Alexis Pompili, Alberto Sanchez-Hernandez. “Review of CMS contributions to Hadron Spectroscopy”, arXiv:2204.06667 [hep-ex] (pdf).

Submissions to the Snowmass 2021 Proceedings – Cosmic Frontier

Papers of general interest to this frontier

Pouya Asadi, Saurabh Bansal, Asher Berlin, Raymond T. Co, Djuna Croon, Yanou Cui, et al. ”Early-Universe Model Building”, arXiv:2203.06680 [hep-ph] (pdf). (also under TF09)

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, IF0)

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 TF0, IF01, CompF06)

CF01: Dark matter: particle-like candidates

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 TF08, IF01)

Rebecca K. Leane, Seodong Shin, Liang Yang, Govinda Adhikari, et al. ”Puzzling Excesses in Dark Matter Searches and How to Resolve Them“, arXiv:2203.06859 [hep-ph] (pdf). (also under TF09)

Daniel Baxter, Raymond Bunker, Sally Shaw, Shawn Westerdale, Isaac Arnquist, et al. ”Calibrations and backgrounds for dark matter direct detection“, arXiv:2203.07623 [hep-ex] (pdf).

Yonatan Kahn, Maria Elena Monzani, Kimberly J. Palladino, Tyler Anderson, Deborah Bard, et al. ”Modeling, statistics, simulations, and computing needs for direct dark matter detection”, arXiv:2203.07700 [hep-ex] (pdf). (also under CompF0)

CF02: Dark matter: wave-like candidates

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, TF09, IF01)

J. Jaeckel, G. Rybka, L. Winslow, for the Axion Prospects Collaboration. “Axion Dark Matter”, arXiv:2203.14923 [hep-ex] (pdf). (also under RF03, TF09, AF07, IF01; also relevant to CF01, CF03)

CF03: Dark matter: astrophysical probes

Yao-Yuan Mao, Annika H. G. Peter, Susmita Adhikari, Keith Bechtol, Simeon Bird, et al. ”Vera C. Rubin Observatory as a Flagship Dark Matter Experiment”, arXiv:2203.07252 [hep-ex] (pdf).

Arka Banerjee, Kimberly K. Boddy, Francis-Yan Cyr-Racine, Adrienne L. Erickcek, et al. ”Cosmological Simulations for Dark Matter Physics”, arXiv:2203.07049 [astro-ph.CO] (pdf).

Sukanya Chakrabarti, Alex Drlica-Wagner, Ting S. Li, Neelima Sehgal, Joshua D. Simon, Simon Birrer, et al. ”Observational Facilities to Study Dark Matter”, arXiv:2203.06200 [astro-ph.CO] (pdf).

Keith Bechtol, Simon Birrer, Francis-Yan Cyr-Racine, Katelin Schutz,, et al. ”Dark Matter Physics from Halo Measurements”, arXiv:2203.07354 [hep-ph] (pdf).

Cora Dvorkin, Siddharth Mishra-Sharma, Brian Nord, V. Ashley Villar, Camille Avestruz, et al. ”Machine Learning and Cosmology”, arXiv:2203.08056 [hep-ph] (pdf). (also under CompF03)

Simeon Bird, Andrea Albert, Will Dawson, Yacine Ali-Haimoud, Adam Coogan, Alex Drlica-Wagner, et al. ”Primordial Black Hole Dark Matter“, arXiv:2203.08967 [hep-ph] (pdf).

Jack Burns, Gregg Hallinan, Tzu-Ching Chang, Marin Anderson, Judd Bowman, et al. ”A Lunar Farside Low Radio Frequency Array for Dark Ages 21-cm Cosmology”, arXiv:2103.08623 [astro-ph.IM] (pdf).

CF04: Dark energy and cosmic acceleration: the modern universe

Bob Blum, Seth W. Digel, Alex Drlica-Wagner, Salman Habib, Katrin Heitmann, et al. ”Rubin Observatory after LSST”, arXiv:2203.07220 [astro-ph.CO] (pdf).

Sukanya Chakrabarti, Anthony H. Gonzalez, Steve Eikenberry, David Erskine, et al. ”Real-time Cosmology with High Precision Spectroscopy and Astrometry”, arXiv:2203.05924 [astro-ph.CO] (pdf).

Jonathan A. Blazek, Doug Clowe, Thomas E. Collett, Ian P. Dell’Antonio, Mark Dickinson, et al. ”Enabling Flagship Dark Energy Experiments to Reach their Full Potential”, arXiv:2204.01992 [astro-ph.CO] (pdf).

CF05: Dark energy and cosmic acceleration: cosmic dawn and before

Simone Aiola, Yashar Akrami, Kaustuv Basu, Michael Boylan-Kolchin, Thejs Brinckmann, et al. (CMB-HD Collaboration). ”CMB-HD White Paper”, arXiv:2203.05728 [astro-ph.CO] (pdf).

Kirit S. Karkare, Azadeh Moradinezhad Dizgah, Garrett K. Keating, Patrick Breysse, Dongwoo T. Chung. ”Cosmology with Millimeter-Wave Line Intensity Mapping“, arXiv:2203.07258 [astro-ph.CO] (pdf).

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 TF09, IF10)

CF06: Dark energy and cosmic acceleration: complementarity of probes and new facilities

Eric J. Baxter, Chihway Chang, Andrew Hearin, Jonathan Blazek, Lindsey E. Bleem, et al. ”Opportunities from Cross-survey Analyses of Static Probes”, arXiv:2203.06795 [hep-ex] (pdf).

Alex G. Kim, Antonella Palmese, Maria E. S. Pereira, Greg Aldering, Felipe Andrade-Oliveira, et al. ”Multi-Experiment Probes for Dark Energy – Transients“, arXiv:2203.11226 [astro-ph.CO] (pdf).

CF07: Cosmic probes of fundamental physics

Elcio Abdalla, Guillermo Franco Abellán, Amin Aboubrahim, Adriano Agnello, Ozgur Akarsu, et al. ”Cosmology Intertwined: A Review of the Particle Physics, Astrophysics, and Cosmology Associated with the Cosmological Tensions and Anomalies”, arXiv:2203.06142 [astro-ph.CO] (pdf).

Stefan W. Ballmer, Rana Adhikari, Leonardo Badurina, Duncan A. Brown, et al. ”Future Gravitational-Wave Detector Facilities”, arXiv:2203.08228 [gr-qc] (pdf).

D. Beznosko , K. Baigarin , R. Beisembaev , E. Beisembaeva , E. Gladysz-Dziadu et al. ”Probing Fundamental Physics With Multi-Modal Cosmic Ray Events”, arXiv:2204.04045 [hep-ex] (pdf).

Submissions to the Snowmass 2021 Proceedings – Theory Frontier

Papers of general interest to this frontier

Prateek Agrawal, Cari Cesarotti, Andreas Karch, Rashmish K. Mishra, Lisa Randall, Raman Sundrum. ”Warped Compactifications in Particle Physics, Cosmology and Quantum Gravity”, arXiv:2203.07533 [hep-th] (pdf).

TF01: String theory, quantum gravity, and black holes

TF02: Effective field theory techniques

TF03: Conformal field theory and formal quantum field theory

TF04: Scattering amplitudes

TF05: Lattice gauge theory

Peter Boyle, Dennis Bollweg, Richard Brower, Norman Christ, Carleton DeTar, et al. ”Lattice QCD and the Computational Frontier”, arXiv:2204.00039 [hep-lat] (pdf). (also under CompF02)

TF06: Theory techniques for precision physics

Neda Darvishi, S. Höche, Daniele Lombardi, M.R. Masouminia, Javier Mazzitelli, Pier Francesco Monni, et al. ”Future prospects for parton showers“, arXiv:2203.06799 [hep-ph] (pdf).

TF07: Collider phenomenology

A. Valassi et al, “Challenges in Monte Carlo event generator software for High-Luminosity LHC”, arXiv:2004.13687 [hep-ph ]] (pdf). (also under CompF02)

HSF Physics Event Generator WG: Efe Yazgan, Josh McFayden, Andrea Valassi, et al. “HL-LHC Computing Review Stage-2, Common Software Projects: Event Generators”, arXiv:2109.14938 [hep-ph] (pdf). (also under CompF2)

TF08: Beyond-Standard-Model model building

TF09: Astro-particle physics and cosmology

Kimberly K. Boddy, Mariangela Lisanti, Samuel D. McDermott, Nicholas L. Rodd, Christoph Weniger, et al. ”Astrophysical and Cosmological Probes of Dark Matter”, arXiv:2203.06380 [hep-ph] (pdf).

TF10: Quantum information

Yannick Meurice, James C. Osborn, Ryo Sakai, Judah Unmuth-Yockey, Simon Catterall, Rolando D. Somma. ”Tensor networks for High Energy Physics”, arXiv:2203.04902 [hep-lat] (pdf). (also under CompF06)

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 AF01, IF01, CompF06)

Christian W. Bauer, Zohreh Davoudi, A. Baha Balantekin, Tanmoy Bhattacharya, et al. ”Quantum Simulation for High Energy Physics”, arXiv:2204.03381 [quant-ph] (pdf). (also under CompF06; also relevant to TF05)

M. Sohaib Alam, Sergey Belomestnykh, Nicholas Bornman, Gustavo Cancelo, Yu-Chiu Chao, et al. “Quantum computing hardware for HEP algorithms and sensing”, arXiv:2204.08605 [quant-ph] (pdf). (also under CompF06)

TF11: Theory of Neutrino Physics

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 NF06)

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).

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. 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)

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).

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)

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).

AF02: Accelerators for neutrinos

AF03: Accelerators for electroweak/Higgs

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).

AF04: Multi-TeV colliders

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).

AF05: Accelerators for PBC and rare processes

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)

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).

AF07: Accelerator technology R&D

AF07: RF systems

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 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).

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)

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)

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).

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).

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).

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).

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).

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).

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).

Submissions to the Snowmass 2021 Proceedings – Instrumentation Frontier

Papers of general interest to this frontier

IF01: Quantum sensors

IF02: Photon devices

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).

IF03: Solid state devices and tracking

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

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

IF04: Trigger and DAQ

IF05: Micro-pattern gas detectors

IF06: Calorimetry

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).

IF07: Electronics and ASICs

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).

IF08: Noble element-based detectors

IF09: Cross-cutting devices and systems integration

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).

IF10: Radio detection

Submissions to the Snowmass 2021 Proceedings – Computational Frontier

Papers of general interest to this frontier

T. Aarrestad et al. [HEP Software Foundation], “HL-LHC Computing Review: Common Tools and Community Software”, arXiv:2008.13636 [physics.comp-ph ]] (pdf).

Christopher D. Jones, Kyle Knoepfel, Paolo Calafiura, Charles Leggett, Vakhtang Tsulaia. ”Evolution of HEP Processing Frameworks“, arXiv:2203.14345 [cs.DC] (pdf).

CompF01: Experimental algorithm optimization and parallelization

Meghna Bhattacharya, Paolo Calafiura, Taylor Childers, Mark Dewing, et al. ”Portability: A Necessary Approach for Future Scientific Software”, arXiv:2203.09945 [physics.comp-ph] (pdf).

CompF02: Theoretical calculations and simulation

Marcelo A. Alvarez, Arka Banerjee, Simon Birrer, Salman Habib, Katrin Heitmann, et al. ”Cosmological Simulations and Modeling”, arXiv:2203.07347 [astro-ph.IM] (pdf).

S. C. Tognini, P. Canal, T. M. Evans, G. Lima, A. L. Lund, S. R. Johnson, S. Y. Jun, V. R. Pascuzzi, P. K. Romano. ”Celeritas: GPU-accelerated particle transport for detector simulation in High Energy Physics experiments”, arXiv:2203.09467 [physics.data-an] (pdf).

CompF03: Machine learning

Andreas Adelmann, Walter Hopkins, Evangelos Kourlitis, Michael Kagan, Gregor Kasieczka, et al. ”New directions for surrogate models and differentiable programming for High Energy Physics detector simulation”, arXiv:2203.08806 [hep-ph] (pdf).

CompF04: Storage and data processing resource access; facility and infrastructure R&D

Doug Benjamin, Kenneth Bloom, Brian Bockelman, Lincoln Bryant, et al. ”Analysis Facilities for HL-LHC“, arXiv:2203.08010 [hep-ex] (pdf).

Amit Bashyal, Peter Van Gemmeren, Saba Sehrish, Kyle Knoepfel, Suren Byna, Qiao Kang. ”Data Storage for HEP Experiments in the Era of High-Performance Computing”, arXiv:2203.07885 [hep-ex] (pdf).

K. Herner, M. Kirby, S. Timm. ”Towards an HPC Complementary Computing Facility”, arXiv:2203.08861 [cs.DC] (pdf).

Maria Acosta Flechas, Garhan Attebury, Kenneth Bloom, et al. ”Collaborative Computing Support for Analysis Facilities Exploiting Software as Infrastructure Techniques”, arXiv:2203.10161 [physics.data-an] (pdf).

CompF05: End user analysis

Jim Pivarski, Eduardo Rodrigues, Kevin Pedro, Oksana Shadura, Benjamin Krikler, Graeme A. Stewart. ”HL-LHC Computing Review Stage 2, Common Software Projects: Data Science Tools for Analysis”, arXiv:2202.02194 [physics.data-an] (pdf).

CompF06: Quantum computing

James B. Kowalkowski, Adam L. Lyon. ”Simulations for the Development of Quantum Computational Devices for HEP”, arXiv:2203.09740 [quant-ph] (pdf).

Andrei Derevianko, Eden Figueroa, Julián MartÍnez-Rincón, Inder Monga, Andrei Nomerotski, et al. ”Quantum Networks for High Energy Physics”, arXiv:2203.16979 [quant-ph] (pdf).

CompF07: Reinterpretation and long-term preservation of data and code

Submissions to the Snowmass 2021 Proceedings – Underground Facilities and Infrastructure

Papers of general interest to this frontier

UF01: Underground Facilities for Neutrinos

UF02: Underground Facilities for Cosmic Frontier

UF03: Underground Detectors

UF04: Supporting Capabilities

UF05: Synergistic Research

UF06: An Integrated Strategy for Underground Facilities and Infrastructure

Submissions to the Snowmass 2021 Proceedings – Community Engagement

Papers of general interest to this frontier

CommF01: Applications & Industry

Gabriella Carini, Marcel Demarteau, Peter Denes, Angelo Dragone, et al. ”Big Industry Engagement to Benefit HEP: Microelectronics Support from Large CAD Companies”, arXiv:2203.08973 [physics.soc-ph] (pdf).

Jim Hoff, Seda Memik. ”Application-driven engagement with universities, synergies with other funding agencies”, arXiv:2203.14706 [physics.soc-ph] (pdf).

Asou Arai, Farah Fahim, Ryosuke Furubayashi, Matthew Garrett, Shaorui Li, et al. ”Programs Enabling Deep Technology Transfer from National Labs”, arXiv:2203.15128 [physics.soc-ph] (pdf).

CommF02: Career Pipeline & Development

Matt Bellis, Bhubanjyoti Bhattacharya, Julie Hogan, Sudhir Malik, Ben Pearson, David DeMuth, and Kathrine Laureto. “Enhancing HEP research in predominantly undergraduate institutions and community colleges”, arXiv:2203.11662 [physics.ed-ph] (pdf).

CommF03: Diversity & Inclusion

Tiffany R. Lewis, Sara M. Simon, Carla Bonifazi, Savannah Thais, Johan Sebastian Bonilla Castro, Kétévi A. Assamagan. ”Lifestyle and personal wellness in particle physics research activities”, arXiv:2203.08631 [physics.soc-ph] (pdf).

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 AF01)

Kétévi A. Assamagan, Carla Bonifazi, Johan Sebastian Bonilla Castro, Claire David, et al. ”Why should the U.S. care about high energy physics in Africa and Latin America?”, arXiv:2203.10060 [physics.soc-ph] (pdf).

Apriel K Hodari, Shayna B Krammes, Chanda Prescod-Weinstein, Brian D Nord, Jessica N Esquivel, Kétévi A Assamagan. ”Policing and Gatekeeping in STEM”, arXiv:2203.11508 [physics.soc-ph] (pdf).

Apriel K Hodari, Shayna B Krammes, Chanda Prescod-Weinstein, Brian D Nord, Jessica N Esquivel, Kétévi A Assamagan. ”Power Dynamics in Physics“, arXiv:2203.11513 [physics.soc-ph] (pdf).

Apriel K Hodari, Shayna B Krammes, Chanda Prescod-Weinstein, Brian D Nord, Jessica N Esquivel, Kétévi A Assamagan. ”Informal Socialization in Physics Training”, arXiv:2203.11518 [physics.soc-ph] (pdf).

Apriel K Hodari, Shayna B Krammes, Chanda Prescod-Weinstein, Brian D Nord, Jessica N Esquivel, Kétévi A Assamagan. ”How to Read the Snowmass White Papers on Power Dynamics in Physics, Informal Socialization in Physics Training, and Policing and Gatekeeping in STEM“, arXiv:2203.11523 [physics.soc-ph] (pdf).

Erin V. Hansen, Erica Smith, Deborah Bard, Matthew Bellis, et al. ”Climate of the Field: Snowmass 2021”, arXiv:2204.03713 [physics.soc-ph] (pdf).

Kétévi A. Assamagan, Olivia M. Bitter, Mu-Chun Chen, Ami Choi, Jessica Esquivel, Kathryn Jepsen, Tiffany R. Lewis, Azwinndini Muronga, Lucianne Walkowicz, Yuanyuan Zhang. “Building a Culture of Equitable Access and Success for Marginalized Members in Today’s Particle Physics Community”, arXiv:2206.01849 [physics.soc-ph] (pdf).

CommF04: Physics Education

M. G. Bardeen, O. M. Bitter, M. Glover, S.J. de Jong, et al. “Particle Physics Outreach to K-12 Schools and Opportunities in Undergraduate Education”, arXiv:2203.10953 [physics.ed-ph] (pdf). .

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 AF01)

Sudhir Malik, David DeMuth, Sijbrand de Jong, Randal Ruchti, Savannah Thais, Guillermo Fidalgo, et al. ”Broadening the scope of Education, Career and Open Science in HEP”, arXiv:2203.08809 [physics.ed-ph] (pdf).

O. Bitter, E. V. Hansen, S. Kravitz, V. Velan, Y. You. ”Transforming U.S. Particle Physics Education: A Snowmass 2021 Study”, arXiv:2204.08983 [physics.ed-ph] (pdf).

CommF05: Public Education & Outreach

Kétévi Adiklè Assamagan, Mateus Carneiro, Sarah Demers, Kathryn Jepsen, Don Lincoln, Azwinndini Muronga. ”The need for structural changes to create impactful public engagement in US particle physics“, arXiv:2203.08916 [physics.soc-ph] (pdf).

Jim Cochran, John Huth, Roger Jones, Paul Laycock, Claire Lee, Lawrence Lee, Connie Potter, Gordon Watts. ”Particle Physics Outreach at Non-traditional Venues”, arXiv:2203.09585 [physics.ed-ph] (pdf).

CommF06: Public Policy and Government Engagement

CommF07: Environmental and Societal Impacts

R. Zens, M. Headley, D. Wolf, A. Markovitz, F. Dukes, J. Tang, K. Bloom, V. Boisvert. ”Societal impacts of particle physics projects“, arXiv:2203.07995 [hep-ex] (pdf).

Kenneth Bloom, Veronique Boisvert, Daniel Britzger, Micah Buuck, Astrid Eichhorn, Michael Headley, Kristin Lohwasser, Petra Merkel. ”Climate impacts of particle physics”, arXiv:2203.12389 [physics.soc-ph] (pdf).