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Enregistrement W3207718175 · doi:10.1088/1741-4326/ac2ff2

DIII-D research advancing the physics basis for optimizing the tokamak approach to fusion energy

2021· article· en· W3207718175 sur OpenAlexaff
M.E. Fenstermacher, Joseph Abbate, Shota Abe, T. Abrams, Mark Adams, Bo Adamson, N. Aiba, T. Akiyama, P. Aleynikov, Elizabeth K. Allen, S. L. Allen, H. Anand, James P. Anderson, Y. Andrew, T.K. Jr. Andrews, D. Appelt, Ryan Arbon, N. Ashikawa, Arash Ashourvan, M. Aslin, Y. P. Asnis, Max Austin, David Ayala, J.G. Bak, I. Bandyopadhyay, Santanu Banerjee, K. Barada, L. Bardóczi, J.L. Barr, E.M. Bass, D. J. Battaglia, A. Battey, W. Baumgartner, L. Baylor, J. Beckers, Matthew Beidler, E. A. Belli, J.W. Berkery, T. N. Bernard, N. Bertelli, M. Beurskens, R. Bielajew, S. A. Bilgili, Bodhi Biswas, Sophie Blondel, J.A. Boedo, I. N. Bogatu, R. L. Boivin, T. Bolzonella, M.W. Bongard, X. Bonnin, P. T. Bonoli, Matteo Bonotto, A. Bortolon, Sayak Bose, Nicolas Bosviel, Sim Bouwmans, Mark D. Boyer, W. Boyes, L. P. Bradley, R. Brambila, D. P. Brennan, Stefan Bringuier, Lisa Brodsky, M. W. Brookman, J.N. Brooks, D. L. Brower, G. V. Brown, W. Ted Brown, M.G. Burke, Kh Burrell, K. Butler, R. J. Buttery, I. Bykov, P.J. Byrne, A. Cacheris, Kyle Callahan, J. D. Callen, G.L. Campbell, J. Candy, J.M. Canik, P. Cano-Megias, N.M. Cao, Loukas Carayannopoulos, T. Carlstrom, W. Carrig, T. Carter, W.P. Cary, L. Casali, M. Cengher, Gil Paz, Ryan Chaban, V. S. Chan, B. H. Chapman, I. Char, Aparajeo Chattopadhyay, R. Chen, J. Chen, Xi Chen, X. Chen, M. Chen, Z. Chen, M. Choi, W. Choi, G. J. Choi, L. Chousal, C. Chrobak, C. Chrystal, Yang Geun Chung, R.M. Churchill, M. Cianciosa, Jerry D. Clark, M. Clément, S. Coda, A.J. Cole, C. Collins, William Conlin, W.A. Cooper, Jacob Cordell, Bruno Coriton, T. Cote, J. Cothran, A. J. Creely, N. A. Crocker, C. Crowe, B.J.B. Crowley, T. P. Crowley, D. J. Cruz-Zabala, David B. Cummings, M. Curie, Davide Curreli, A. Dal Molin, B. Dannels, A. Dautt-Silva, K. Davda, G. De Tommasi, P. de Vries, Genevieve DeGrandchamp, J.S. deGrassie, D. R. Demers, S. S. Denk, S Depasquale, Earl William DeShazer, A. Diallo, S. J. Diem, A. M. Dimits, Rui Ding, S. Ding, W. X. Ding, Thi-Nga Do, J.L. Doane, David Donovan, J. F. Drake, W. Drews, Jon Drobny, Xiaodi Du, Hua Du, V. N. Duarte, Daniel Dudt, Carmen B. Dunn, Jonah Duran, Andrew Dvorak, F. Effenberg, N.W. Eidietis, D. Elder, D. Eldon, R. Ellis, Wael Elwasif, D.A. Ennis, Keith Erickson, D. R. Ernst, M. Fasciana, Д. В. Федоров, Eliot Feibush, N.M. Ferraro, J. Ferreira, J.R. Ferron, P. J. Fimognari, D. F. Finkenthal, Richard Fitzpatrick, P. Fox, W. Fox, L. Frassinetti, H. Frerichs, Hayden Frye, Yuwei Fu, K. Gage, J. Galdón-Quiroga, A. Gallo, Q. D. Gao, A. Garcia, M. García-Muñoz, D. Garnier, A. M. Garofalo, Anthony Gattuso, D. Geng, K. Gentle, Debojyoti Ghosh, L. Giacomelli, S. Gibson, E.P. Gilson, C. Giroud, F. Glass, A. Glasser, D. Glibert, P. Gohil, R. G. Gomez, S. Gomez, Xianzu Gong, Eileen C. Gonzales, Aaron Goodman, Yu. A. Gorelov, Vincent Graber, R.S. Granetz, Travis Gray, D. Green, C. M. Greenfield, M. Greenwald, B. A. Grierson, R. J. Groebner, W. Grosnickle, M. Groth, H.J. Grunloh, S. Gu, Wenfeng Guo, Huan Guo, P. S. Damodara Gupta, J. Guterl, W. Guttenfelder, T.J. Guzman, S. Haar, R. Hager, S.H. Hahn, M. Halfmoon, Tony Hall, K. Hallatschek, Federico David Halpern, G. W. Hammett, Hyunsun Han, E.C. Hansen, C. Hansen, M. Hansink, J.M. Hanson, Michael O. Hanson, Guangzhou Hao, A. Harris, R. W. Harvey, S. R. Haskey, Ehab Hassan, A. Hassanein, D. R. Hatch, R.J. Hawryluk, W.H.J. Hayashi, W. W. Heidbrink, J. L. Herfindal, J. Hicok, D. N. Hill, E.T. Hinson, C. T. Holcomb, L. Holland, C. Holland, E.M. Hollmann, J. Hollocombe, A. Holm, I. Holmes, K.L. Holtrop, M. Honda, R. Hong, Ryan Hood, A. Horton, L. Horváth, M. Hosokawa, Saeid Houshmandyar, N. T. Howard, E. C. Howell, D. Hoyt, Wenhui Hu, Y. Hu, Qiming Hu, J. Huang, Y. H. Huang, J. W. Hughes, T. Human, Daniel Lewis Humphreys, P. Huynh, A.W. Hyatt, Lander Ibarra, R. Icasas, K. Ida, V. Igochine, Y. In, Shizuo Inoue, A. Isayama, Olivier Izacard, V.A. Izzo, William Henry Jackson, Geraldine Jacobsen, A.E. Jaervinen, Azarakhsh Jalalvand, J. Janhunen, S.C. Jardin, H. Järleblad, Y.M. Jeon, Hantao Ji, Xiang Jian, E. Joffrin, A. Johansen, C. A. Johnson, T. Johnson, Christopher S. Jones, I. Joseph, D. Jubas, Benjamin Junge, W. Kalb, R. Kalling, Chandrika Kamath, Jisung Kang, David H. Kaplan, Alan A. Kaptanoglu, Stephen Kasdorf, Julian Kates‐Harbeck, P. V. Kazantzidis, A.G. Kellman, D.H. Kellman, C. Kessel, Kenneth Khumthong, Eun‐jin Kim, H. Kim, J. Kim, S. Kim, K. Kim, C. Kim, W. D. Kimura, M. King, J.D. King, J. E. Kinsey, A. Kirk, Bora Kiyan, A. Kleiner, V. Klevarová, Rachel Knapp, M. Knölker, W.H. Ko, T. Kobayashi, E.E. Koch, M. Kochan, Bruce E. Koel, M. E. Koepke, A. Köhn, Robert Kolasinski, Egemen Kolemen, Evdokiya Kostadinova, Mark Kostuk, G. Krämer, D. M. Kriete, L. Kripner, S. Kubota, James Kulchar, K.H. Kwon, R. La Haye, F. M. Laggner, H. Lan, R. Lantsov, L. L. Lao, Ane Lasa Esquisabel, C.J. Lasnier, C. Lau, B. Leard, J. Lee, R. Lee, M. Lee, Y. Lee, Chanseul Lee, S. Lee, M. Lehnen, A.W. Leonard, E. Leppink, M. LeSher, Jeff Lestz, J.A. Leuer, N. Leuthold, X. Li, K. Li, E. Li, G. Li, Lujie Li, Z. Li, J. Li, Yan Li, Zhifang Lin, D. Lin, X. Liu, Jian Liu, Y. Liu, T. Liu, C. Liu, Zheng-Wei Liu, D. Liu, Amelia I. Liu, A. Loarte-Prieto, L.L. LoDestro, N.C. Logan, J. Lohr, B. Lombardo, J. Lore, Q. Luan, T.C. Luce, T. Luda, Neville C. Luhmann, R. Lunsford, Zhengping Luo, A. Lvovskiy, B. C. Lyons, X. Ma, M. Madruga, B. Madsen, C. Maggi, Kush Maheshwari, A. Mail, J. Mailloux, R. Maingi, M. Major, M. Makowski, R. Manchanda, C. Marini, A. Marinoni, Assimo Maris, T. Markovič, L. Marrelli, E. H. Martin, J. Mateja, G. Matsunaga, R. Maurizio, P.S. Mauzey, D. Mauzey, G. McArdle, J. McClenaghan, K.J. McCollam, Christopher J. McDevitt, Kiera McKay, G. R. McKee, A.G. McLean, Vedant Mehta, Eric Meier, J. Ménard, O. Meneghini, G. Merlo, Sarah Messer, William H. Meyer, C. Michael, Craig Michoski, P.G. Milne, G. Minet, A. Misleh, Yu. V. Mitrishkin, Charles Moeller, Kevin Montes, M. Morales, S. Mordijck, D. Moreau, Shira Morosohk, P.F. Morris, L. A. Morton, Auna Moser, R. A. Moyer, Cody Moynihan, T. Mrazkova, D. Mueller, S. Munaretto, J. M. Muñoz Burgos, C. Murphy, K. R. Murphy, C. M. Muscatello, C. E. Myers, A. Nagy, Giridhar Nandipati, M. Navarro, M. F. F. Nave, G. A. Navratil, R. Nazikian, Anton Neff, G. H. Neilson, Tom Neiser, W. Neiswanger, D. Nelson, A. Nelson, F. Nespoli, R. Nguyen, L. Nguyen, X. Nguyen, J.H. Nichols, M. Nocente, S.H. Nogami, S. Noraky, Nikolai Norausky, M. D. Nornberg, R.E. Nygren, T. Odstrčil, Destinee R. Ogas, T. O’Gorman, S. Ohdachi, Y. Ohtani, M. Okabayashi, M. Okamoto, L. Olavson, Erik Olofsson, M. O’Mullane, R.C. O’Neill, D.M. Orlov, W.J. Orvis, T.H. Osborne, D. C. Pace, G. P. Canal, André Martinez, Luisa Palacios, Changhao Pan, Qingjiang Pan, Rishi Pandit, M. D. Pandya, A.Y. Pankin, Y. Park, J. Park, Scott Parker, P. B. Parks, Matthew Parsons, B. Patel, C. Pawley, C. Paz-Soldan, W. A. Peebles, S. Pelton, R. Perillo, C. C. Petty, Y. Peysson, Dylan Pierce, A.Yu. Pigarov, L. Pigatto, D.A. Piglowski, S. D. Pinches, R. I. Pinsker, P. Piovesan, Nicholas Piper, A. Pironti, R.A. Pitts, J. Pizzo, U. Plank, M. Podestá, E. Poli, F. M. Poli, D. Ponce, Ž. Popović, M. Porkoláb, G. D. Porter, Christopher M. Powers, S. Powers, R. Prater, Quinn Pratt, István Pusztai, J.P. Qian, Xijie Qin, Ookjoo Ra, T. Rafiq, T. Raines, R. Raman, J. Rauch, A. Raymond, Cristina Rea, M. Reich, A. Reiman, S. Reinhold, M.L. Reinke, R. Reksoatmodjo, Q. Ren, Y. Ren, Jun Ren, M. E. Rensink, J. Renteria, T.L. Rhodes, James K. Rice, Richard B. Roberts, J. Robinson, P. Rodriguez-Fernandez, T.D. Rognlien, A. Rosenthal, Stefano Rosiello, J. C. Rost, J.J. Roveto, W. L. Rowan, R. Rozenblat, J. Ruane, D.L. Rudakov, Juan Ruiz Ruiz, R. Rupani, S. Saarelma, S.A. Sabbagh, Jai Sachdev, J. J. Sáenz, S. M. Saib, M. Salewski, Ari Salmi, B. Sammuli, C.M. Samuell, A. M. Sandorfi, Chaofeng Sang, J. S. Sarff, O. Sauter, K.M. Schaubel, L. Schmitz, O. Schmitz, J. Schneider, P. Schroeder, K. Schultz, Eugenio Schuster, J. Schwartz, F. Sciortino, F. Scotti, J. T. Scoville, Andrew Seltzman, S.Y. Seol, I. Sfiligoi, M.W. Shafer, S. E. Sharapov, H. Shen, Zhicai Sheng, T. D. Shepard, Shanshuang Shi, Y. Shibata, Giwook Shin, D. Shiraki, Ricardo Shousha, Hang Si, P. Simmerling, G. Sinclair, J. Sinha, P. Sinha, G. Sips, T. Sizyuk, Charles Skinner, A. Sladkomedova, T. Slendebroek, J.H. Slief, R.D. Smirnov, John P. Smith, S. Smith, D. R. Smith, J. Snipes, G. Snoep, Alan M. Snyder, P.B. Snyder, E.R. Solano, W.M. Solomon, Junhyuk Song, A.C. Sontag, V. Soukhanovskii, J. Spendlove, D. A. Spong, Jared Squire, Chiranth Srinivasan, Weston M. Stacey, G. M. Staebler, L. Stagner, T. Stange, P.C. Stangeby, R. Tavzes J. Stefan, R. Stemprok, D. Stephan, J. Stillerman, T. Stoltzfus-Dueck, W. Stonecipher, Stephen Storment, E. J. Strait, David Su, L. Sugiyama, Youwen Sun, P. J. Sun, Zhen Sun, A.P. Sun, D. Sundstrom, C. Sung, J. Sungcoco, W. Suttrop, Yasuo Suzuki, Tsuyoshi SUZUKI, Alexey Svyatkovskiy, Colin Swee, R. Sweeney, C. Sweetnam, G. Szepesi, M. Takechi, T. Tala, K. Tanaka, Xian-Zhu Tang, S. P. Tang, Rumao Tao, D. Taussig, T. S. Taylor, K. Teixeira, Katrina Teo, Audun Theodorsen, D. M. Thomas, K. E. Thome, A. Thorman, A. Thornton, Ang Ti, M. S. Tillack, N. N. Timchenko, R. A. Tinguely, Robert C. Tompkins, J.F. Tooker, A. Torrezan de Sousa, G. Trevisan, Sudhir Tripathi, A. Trujillo Ochoa, Dinh Truong, C.K. Tsui, F. Turco, A. Turnbull, M. Umansky, E.A. Unterberg, Payam Vaezi, P. J. Vail, W. Valkis, B. Van Compernolle, J. Van Galen, R. van Kampen, M. A. Van Zeeland, Geert Verdoolaege, N. Vianello, B.S. Victor, E. Viezzer, S. Vincena, M. R. Wade, F. L. Waelbroeck, J. Wai, T. Wakatsuki, M.L. Walker, G. M. Wallace, R. E. Waltz, W.R. Wampler, Liang Wang, Huiqian Wang, Y. Wang, Z. Wang, G. Wang, S. J. Ward, M.L. Watkins, J.G. Watkins, W Wehner, Yana Wei, M. Weiland, David B. Weisberg, A.S. Welander, A. E. White, R. B. White, S. Wiesen, R.S. Wilcox, T. M. Wilks, M. Willensdorfer, H. R. Wilson, A. Wingen, M. Wolde, Michael S Wolff, Kevin B. Woller, Anna Wolz, H. Vernon Wong, S. Woodruff, M.F. Wu, Y.B. Wu, S.J. Wukitch, G. A. Wurden, W. W. Xiao, Ruifeng Xie, Z. A. Xing, X. Q. Xu, Chi Xu, Guosheng Xu, Z. Yan, Xu Yang, S.M. Yang, Tetsuya Yokoyama, R. Yoneda, M. Yoshida, K.-I. You, Tim Younkin, J.H. Yu, Minghai Yu, G. Yu, Qiping Yuan, L. Zaidenberg, L. Zakharov, A. Zamengo, Shawn Zamperini, M. C. Zarnstorff, Emi Zeger, K. Zeller, L. Zeng, M. Zerbini, L. Zhang, X. Zhang, R. Zhang, B. Zhang, J. Zhang, Liping Zhao, Bingzhe Zhao, Yuan Zheng, Linjin Zheng, Ben Zhu, Jizhao Zhu, Yiren Zhu, M. Zsutty, M. Zuin

Notice bibliographique

RevueNuclear Fusion · 2021
Typearticle
Langueen
DomainePhysics and Astronomy
ThématiqueMagnetic confinement fusion research
Établissements canadiensUniversity of British ColumbiaUniversity of Toronto
Organismes subventionnairesPacific Northwest National LaboratorySandia National LaboratoriesOak Ridge Institute for Science and EducationOffice of ScienceNational Technical University of AthensUniversität StuttgartDonghua UniversityDanmarks Tekniske UniversitetNational and Kapodistrian University of AthensUniversiteit GentDalian University of TechnologyAalto-YliopistoInstitute of Plasma Physics, Chinese Academy of SciencesKorea UniversityUlsan National Institute of Science and TechnologyDurham UniversityUniversity of OxfordHarvey Mudd CollegeSTI OptronicsLos Alamos National LaboratoryCollege of Engineering, Michigan State UniversityUniversity of WashingtonLehigh UniversityAuburn UniversityMichigan State UniversityEUROfusionHarvard UniversityFusion Energy SciencesRensselaer Polytechnic InstituteCoventry UniversityBaylor UniversityCulham Centre for Fusion EnergyUniversità degli Studi di Napoli Federico IIChalmers Tekniska HögskolaPolitecnico di TorinoUniversity of Southern CaliforniaSan Diego State UniversitySeoul National UniversityU.S. Department of Energy
Mots-clésTokamakPhysicsNuclear physicsBasis (linear algebra)FusionEnergy (signal processing)DIII-DNuclear engineeringFusion powerMagnetic confinement fusionPlasmaEngineeringQuantum mechanics

Résumé

récupéré en direct d'OpenAlex

Abstract DIII-D physics research addresses critical challenges for the operation of ITER and the next generation of fusion energy devices. This is done through a focus on innovations to provide solutions for high performance long pulse operation, coupled with fundamental plasma physics understanding and model validation, to drive scenario development by integrating high performance core and boundary plasmas. Substantial increases in off-axis current drive efficiency from an innovative top launch system for EC power, and in pressure broadening for Alfven eigenmode control from a co-/counter- I p steerable off-axis neutral beam, all improve the prospects for optimization of future long pulse/steady state high performance tokamak operation. Fundamental studies into the modes that drive the evolution of the pedestal pressure profile and electron vs ion heat flux validate predictive models of pedestal recovery after ELMs. Understanding the physics mechanisms of ELM control and density pumpout by 3D magnetic perturbation fields leads to confident predictions for ITER and future devices. Validated modeling of high- Z shattered pellet injection for disruption mitigation, runaway electron dissipation, and techniques for disruption prediction and avoidance including machine learning, give confidence in handling disruptivity for future devices. For the non-nuclear phase of ITER, two actuators are identified to lower the L–H threshold power in hydrogen plasmas. With this physics understanding and suite of capabilities, a high poloidal beta optimized-core scenario with an internal transport barrier that projects nearly to Q = 10 in ITER at ∼8 MA was coupled to a detached divertor, and a near super H-mode optimized-pedestal scenario with co- I p beam injection was coupled to a radiative divertor. The hybrid core scenario was achieved directly, without the need for anomalous current diffusion, using off-axis current drive actuators. Also, a controller to assess proximity to stability limits and regulate β N in the ITER baseline scenario, based on plasma response to probing 3D fields, was demonstrated. Finally, innovative tokamak operation using a negative triangularity shape showed many attractive features for future pilot plant operation.

Récupéré en direct depuis OpenAlex et désinversé. Les résumés ne sont pas conservés dans cette base de données : les index inversés représentent 8,6 Go des 9,3 Go de texte de la base, et le serveur dispose de 13 Go libres.

Comment cette classification a été obtenuedéplier

Prédiction distillée sur la base complète

Imitation des enseignants

Ni prévalence calibrée, ni vérité terrain. Validation humaine à venir. Apprise à partir de 10 348 étiquettes directes de Codex et de 10 348 étiquettes directes de Gemma. Le mode candidate est l'union des têtes enseignantes seuillées; le consensus est leur intersection. Ces sorties portent le statut machine_predicted_unvalidated et ne sont ni des étiquettes humaines ni des étiquettes directes de modèles de pointe.

score de la tête « metaresearch » (Codex)0,001
score de la tête « metaresearch » (Gemma)0,000
Version: codex-gemma-dda1882f352aStatut de validation: machine_predicted_unvalidated
Catégories candidatesÉtudes des sciences et des technologies, Charge utile insuffisante (le modèle a refusé de juger)
Catégories consensuellesaucune
DomaineSignal candidat: aucune · Signal consensuel: aucune
Devis d'étudeSignal candidat: Sans objet · Signal consensuel: aucune
GenreSignal candidat: Empirique · Signal consensuel: aucune
Score de désaccord entre enseignants0,859
Score d'incertitude au seuil1,000

Scores Codex et Gemma par catégorie

CatégorieCodexGemma
Métarecherche0,0010,000
Méta-épidémiologie (sens strict)0,0000,000
Méta-épidémiologie (sens large)0,0000,000
Bibliométrie0,0000,001
Études des sciences et des technologies0,0010,000
Communication savante0,0000,000
Science ouverte0,0010,001
Intégrité de la recherche0,0000,000
Charge utile insuffisante (le modèle a refusé de juger)0,0140,000

Scores machine (provisoires)

Les deux têtes enseignantes du modèle étudiant, lues sur ce travail. Un score ordonne la base pour la relecture; il n'affirme jamais une catégorie, et le statut de validation accompagne chaque rangée tel quel.

Scores de référence d'un modèle non mature (critères de maturité non atteints, 7 itérations). Un score ordonne; il n'affirme jamais une catégorie.

Tête enseignante Opus0,039
Tête enseignante GPT0,303
Écart entre enseignants0,265 · la distance entre les deux têtes enseignantes sur ce seul travail
Statut de validationscore_only:v0-immature-baseline · tel quel depuis la passe de notation : score_only signifie que le nombre peut ordonner les travaux, et qu'aucune étiquette de catégorie n'en découle

Classification

machine, non validée

Prédiction automatique; un appel candidat d’une seule tête enseignante, pas un consensus.

Devis d'étudeSans objet
Domainenon disponible
GenreEmpirique

Le détail, modèle par modèle et score par score, se trouve en fin de page sous « Comment cette classification a été obtenue ».

En bref

Citations36
Publié2021
Routes d'admission1
Résumé présentoui

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