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Snowmass 2021 Computational Frontier CompF03 Topical Group Report: Machine Learning
/ Shanahan, Phiala (MIT) ; Terao, Kazuhiro (SLAC) ; Whiteson, Daniel (UC, Irvine) ; Aarts, Gert (Swansea U. ; ECT, Trento ; Fond. Bruno Kessler, Trento) ; Adelmann, Andreas (Northeastern U. ; PSI, Villigen) ; Akchurin, N. (Texas Tech.) ; Alexandru, Andrei (George Washington U. ; Maryland U.) ; Amram, Oz (Johns Hopkins U.) ; Andreassen, Anders (Google Inc.) ; Apresyan, Artur (Fermilab) et al.
The rapidly-developing intersection of machine learning (ML) with high-energy physics (HEP) presents both opportunities and challenges to our community. [...]
arXiv:2209.07559 ; FERMILAB-CONF-22-719-ND-PPD-QIS-SCD.
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Fermilab Library Server - eConf - Fulltext - Fulltext
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Snowmass Neutrino Frontier: DUNE Physics Summary
/ DUNE Collaboration
The Deep Underground Neutrino Experiment (DUNE) is a next-generation long-baseline neutrino oscillation experiment with a primary physics goal of observing neutrino and antineutrino oscillation patterns to precisely measure the parameters governing long-baseline neutrino oscillation in a single experiment, and to test the three-flavor paradigm. [...]
arXiv:2203.06100 ; FERMILAB-FN-1168-LBNF.
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44.
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Searching for solar KDAR with DUNE
/ DUNE Collaboration
The observation of 236 MeV muon neutrinos from kaon-decay-at-rest (KDAR) originating in the core of the Sun would provide a unique signature of dark matter annihilation. Since excellent angle and energy reconstruction are necessary to detect this monoenergetic, directional neutrino flux, DUNE with its vast volume and reconstruction capabilities, is a promising candidate for a KDAR neutrino search. [...]
arXiv:2107.09109; FERMILAB-PUB-21-322-LBNF-ND.-
2021-10-22 - 32 p.
Fulltext: fermilab-pub-21-322-lbnf-nd - PDF; 2107.09109 - PDF; Fulltext from Publisher: PDF; External link: Fermilab Library Server
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Key directions for research and development of superconducting radio frequency cavities
/ Belomestnykh, S. (Fermilab ; Stony Brook U.) ; Posen, S. (Fermilab) ; Bafia, D. (Fermilab) ; Balachandran, S. (Natl. High Mag. Field Lab.) ; Bertucci, M. (LASA, Segrate) ; Burrill, A. (SLAC) ; Cano, A. (Fermilab) ; Checchin, M. (Fermilab) ; Ciovati, G. (Jefferson Lab) ; Cooley, L.D. (Natl. High Mag. Field Lab.) et al.
Radio frequency superconductivity is a cornerstone technology for many future HEP particle accelerators and experiments from colliders to proton drivers for neutrino facilities to searches for dark matter. [...]
arXiv:2204.01178 ; FERMILAB-PUB-22-241-SQMS-TD.
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Fermilab Library Server - eConf - Fulltext - Fulltext
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TF07 Snowmass Report: Theory of Collider Phenomena
/ Maltoni, F. (Louvain U., CP3 ; INFN, Bologna ; U. Bologna, DIFA) ; Su, S. (Arizona U.) ; Thaler, J. (MIT, Cambridge, CTP ; IAIFI, Cambridge ; Harvard U.) ; Aarrestad, T.K. (CERN) ; Aboubrahim, A. (Munster U., ITP) ; Adhikari, S. (Kansas U. ; Johns Hopkins U.) ; Agapov, I. (DESY) ; Agashe, K. (Maryland U.) ; Agrawal, P. (Oxford U., Theor. Phys.) ; Airen, S. (Maryland U.) et al.
Theoretical research has long played an essential role in interpreting data from high-energy particle colliders and motivating new accelerators to advance the energy and precision frontiers. [...]
arXiv:2210.02591 ; FERMILAB-FN-1203-QIS.
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Workshop on a future muon program at FNAL
/ Corrodi, S. (Argonne) ; Oksuzian, Y. (Argonne) ; Edmonds, A. (Boston U.) ; Miller, J. (Boston U.) ; Tran, H.N. (Boston U.) ; Bonventre, R. (LBL, Berkeley) ; Brown, D.N. (LBL, Berkeley) ; Méot, F. (Brookhaven) ; Singh, V. (UC, Berkeley) ; Kolomensky, Y. (LBNL, Berkeley) et al.
The Snowmass report on rare processes and precision measurements recommended Mu2e-II and a next generation muon facility at Fermilab (Advanced Muon Facility) as priorities for the frontier. [...]
arXiv:2309.05933 ; FERMILAB-CONF-23-464-PPD ; CALT-TH-2023-036.
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A Strategic Approach to Advance Magnet Technology for Next Generation Colliders
/ Ambrosio, G. (Fermilab) ; Amm, K. (Brookhaven Natl. Lab.) ; Anerella, M. (Brookhaven Natl. Lab.) ; Apollinari, G. (Fermilab) ; Arbelaez, D. (LBNL, Berkeley) ; Auchmann, B. (PSI, Villigen) ; Balachandran, S. (Natl. High Mag. Field Lab.) ; Baldini, M. (Fermilab) ; Ballarino, A. (CERN) ; Barua, S. (Natl. High Mag. Field Lab.) et al.
Colliders are built on a foundation of superconducting magnet technology that provides strong dipole magnets to maintain the beam orbit and strong focusing magnets to enable the extraordinary luminosity required to probe physics at the energy frontier. [...]
arXiv:2203.13985 ; FERMILAB-CONF-22-283-TD.
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TF08 Snowmass Report: BSM Model Building
/ Fox, Patrick J. (Fermilab) ; Kribs, Graham D. (Oregon U.) ; Murayama, Hitoshi (Tokyo U., IPMU ; UC, Berkeley ; LBL, Berkeley) ; Aboubrahim, Amin (Munster U., ITP) ; Agrawal, Prateek (Oxford U., Theor. Phys.) ; Altmannshofer, Wolfgang (UC, Santa Cruz ; UC, Santa Cruz, Inst. Part. Phys.) ; Baer, Howard (Oklahoma U.) ; Banerjee, Avik (Chalmers U. Tech.) ; Barger, Vernon (Wisconsin U., Madison) ; Batell, Brian (Pittsburgh U.) et al.
We summarize the state of Beyond the Standard Model (BSM) model building in particle physics for Snowmass 2021, focusing mainly on several whitepaper contributions to BSM model building (TF08) and closely related areas..
arXiv:2210.03075 ; FERMILAB-PUB-22-448-T.
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Fermilab Library Server - Snowmass 2021 - eConf - Fulltext - Fulltext
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Gravitational probes of ultra-light axions
/ Grin, Daniel (Haverford Coll.) ; Amin, Mustafa A. (Rice U.) ; Gluscevic, Vera (Florida U. ; Princeton U.) ; Grin, Daniel (Haverford Coll.) ; Hlǒzek, Renée (Toronto U., Astron. Dept.) ; Marsh, David J.E. (Inst. Astrophys. Gottingen) ; Poulin, Vivian (U. Montpellier 2, LUPM ; Johns Hopkins U.) ; Prescod-Weinstein, Chanda (New Hampshire U.) ; Smith, Tristan L. (Swarthmore Coll.) ; Ahmed, Zeeshan (SLAC) et al.
The axion is a hypothetical, well-motivated dark-matter particle whose existence would explain the lack of charge-parity violation in the strong interaction. [...]
arXiv:1904.09003.
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17 p.
Fulltext
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