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

White, Anne

dc.contributor.author	White, Anne
dc.date.accessioned	2023-01-23T14:22:04Z
dc.date.available	2023-01-23T14:22:04Z
dc.date.issued	2022
dc.identifier.uri	https://hdl.handle.net/1721.1/147629
dc.description.abstract	<jats:title>Abstract</jats:title><jats:p>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-<jats:italic>I</jats:italic><jats:sub>p</jats:sub>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-<jats:italic>Z</jats:italic>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<jats:italic>Q</jats:italic>= 10 in ITER at ∼8 MA was coupled to a detached divertor, and a near super H-mode optimized-pedestal scenario with co-<jats:italic>I</jats:italic><jats:sub>p</jats:sub>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<jats:italic>β</jats:italic><jats:sub>N</jats:sub>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.</jats:p>	en_US
dc.language.iso	en
dc.publisher	IOP Publishing	en_US
dc.relation.isversionof	10.1088/1741-4326/AC2FF2	en_US
dc.rights	Creative Commons Attribution 4.0 International license	en_US
dc.rights.uri	https://creativecommons.org/licenses/by/4.0/	en_US
dc.source	IOP Publishing	en_US
dc.title	DIII-D research advancing the physics basis for optimizing the tokamak approach to fusion energy	en_US
dc.type	Article	en_US
dc.identifier.citation	White, Anne. 2022. "DIII-D research advancing the physics basis for optimizing the tokamak approach to fusion energy." Nuclear Fusion, 62 (4).
dc.contributor.department	Massachusetts Institute of Technology. Department of Nuclear Science and Engineering	en_US
dc.relation.journal	Nuclear Fusion	en_US
dc.eprint.version	Final published version	en_US
dc.type.uri	http://purl.org/eprint/type/JournalArticle	en_US
eprint.status	http://purl.org/eprint/status/PeerReviewed	en_US
dc.date.updated	2023-01-23T14:15:56Z
dspace.orderedauthors	Fenstermacher, ME; Abbate, J; Abe, S; Abrams, T; Adams, M; Adamson, B; Aiba, N; Akiyama, T; Aleynikov, P; Allen, E; Allen, S; Anand, H; Anderson, J; Andrew, Y; Andrews, T; Appelt, D; Arbon, R; Ashikawa, N; Ashourvan, A; Aslin, M; Asnis, Y; Austin, M; Ayala, D; Bak, J; Bandyopadhyay, I; Banerjee, S; Barada, K; Bardoczi, L; Barr, J; Bass, E; Battaglia, D; Battey, A; Baumgartner, W; Baylor, L; Beckers, J; Beidler, M; Belli, E; Berkery, J; Bernard, T; Bertelli, N; Beurskens, M; Bielajew, R; Bilgili, S; Biswas, B; Blondel, S; Boedo, J; Bogatu, I; Boivin, R; Bolzonella, T; Bongard, M; Bonnin, X; Bonoli, P; Bonotto, M; Bortolon, A; Bose, S; Bosviel, N; Bouwmans, S; Boyer, M; Boyes, W; Bradley, L; Brambila, R; Brennan, D; Bringuier, S; Brodsky, L; Brookman, M; Brooks, J; Brower, D; Brown, G; Brown, W; Burke, M; Burrell, K; Butler, K; Buttery, R; Bykov, I; Byrne, P; Cacheris, A; Callahan, K; Callen, J; Campbell, G; Candy, J; Canik, J; Cano-Megias, P; Cao, N; Carayannopoulos, L; Carlstrom, T; Carrig, W; Carter, T; Cary, W; Casali, L; Cengher, M; Cespedes Paz, G; Chaban, R; Chan, V; Chapman, B; Char, I; Chattopadhyay, A; Chen, R; Chen, J; Chen, X; Chen, X; Chen, J; Chen, M; Chen, J; Chen, Z; Choi, M; Choi, W; Choi, G; Chousal, L; Chrobak, C; Chrystal, C; Chung, Y; Churchill, R; Cianciosa, M; Clark, J; Clement, M; Coda, S; Cole, A; Collins, C; Conlin, W; Cooper, A; Cordell, J; Coriton, B; Cote, T; Cothran, J; Creely, A; Crocker, N; Crowe, C; Crowley, B; Crowley, T; Cruz-Zabala, D; Cummings, D; Curie, M; Curreli, D; Dal Molin, A; Dannels, B; Dautt-Silva, A; Davda, K; De Tommasi, G; De Vries, P; Degrandchamp, G; Degrassie, J; Demers, D; Denk, S; Depasquale, S; Deshazer, E; Diallo, A; Diem, S; Dimits, A; Ding, R; Ding, S; Ding, W; Do, T; Doane, J; Dong, G; Donovan, D; Drake, J; Drews, W; Drobny, J; Du, X; Du, H; Duarte, V; Dudt, D; Dunn, C; Duran, J; Dvorak, A; Effenberg, F; Eidietis, N; Elder, D; Eldon, D; Ellis, R; Elwasif, W; Ennis, D; Erickson, K; Ernst, D; Fasciana, M; Fedorov, D; Feibush, E; Ferraro, N; Ferreira, J; Ferron, J; Fimognari, P; Finkenthal, D; Fitzpatrick, R; Fox, P; Fox, W; Frassinetti, L; Frerichs, H; Frye, H; Fu, Y; Gage, K; Galdon Quiroga, J; Gallo, A; Gao, Q; Garcia, A; Garcia Munoz, M; Garnier, D; Garofalo, A; Gattuso, A; Geng, D; Gentle, K; Ghosh, D; Giacomelli, L; Gibson, S; Gilson, E; Giroud, C; Glass, F; Glasser, A; Glibert, D; Gohil, P; Gomez, R; Gomez, S; Gong, X; Gonzales, E; Goodman, A; Gorelov, Y; Graber, V; Granetz, R; Gray, T; Green, D; Greenfield, C; Greenwald, M; Grierson, B; Groebner, R; Grosnickle, W; Groth, M; Grunloh, H; Gu, S; Guo, W; Guo, H; Gupta, P; Guterl, J; Guttenfelder, W; Guzman, T; Haar, S; Hager, R; Hahn, S; Halfmoon, M; Hall, T; Hallatschek, K; Halpern, F; Hammett, G; Han, H; Hansen, E; Hansen, C; Hansink, M; Hanson, J; Hanson, M; Hao, G; Harris, A; Harvey, R; Haskey, S; Hassan, E; Hassanein, A; Hatch, D; Hawryluk, R; Hayashi, W; Heidbrink, W; Herfindal, J; Hicok, J; Hill, D; Hinson, E; Holcomb, C; Holland, L; Holland, C; Hollmann, E; Hollocombe, J; Holm, A; Holmes, I; Holtrop, K; Honda, M; Hong, R; Hood, R; Horton, A; Horvath, L; Hosokawa, M; Houshmandyar, S; Howard, N; Howell, E; Hoyt, D; Hu, W; Hu, Y; Hu, Q; Huang, J; Huang, Y; Hughes, J; Human, T; Humphreys, D; Huynh, P; Hyatt, A; Ibanez, C; Ibarra, L; Icasas, R; Ida, K; Igochine, V; In, Y; Inoue, S; Isayama, A; Izacard, O; Izzo, V; Jackson, A; Jacobsen, G; Jaervinen, A; Jalalvand, A; Janhunen, J; Jardin, S; Jarleblad, H; Jeon, Y; Ji, H; Jian, X; Joffrin, E; Johansen, A; Johnson, C; Johnson, T; Jones, C; Joseph, I; Jubas, D; Junge, B; Kalb, W; Kalling, R; Kamath, C; Kang, J; Kaplan, D; Kaptanoglu, A; Kasdorf, S; Kates-Harbeck, J; Kazantzidis, P; Kellman, A; Kellman, D; Kessel, C; Khumthong, K; Kim, E; Kim, H; Kim, J; Kim, S; Kim, J; Kim, H; Kim, K; Kim, C; Kimura, W; King, M; King, J; Kinsey, J; Kirk, A; Kiyan, B; Kleiner, A; Klevarova, V; Knapp, R; Knolker, M; Ko, W; Kobayashi, T; Koch, E; Kochan, M; Koel, B; Koepke, M; Kohn, A; Kolasinski, R; Kolemen, E; Kostadinova, E; Kostuk, M; Kramer, G; Kriete, D; Kripner, L; Kubota, S; Kulchar, J; Kwon, K; La Haye, R; Laggner, F; Lan, H; Lantsov, R; Lao, L; Lasa Esquisabel, A; Lasnier, C; Lau, C; Leard, B; Lee, J; Lee, R; Lee, M; Lee, M; Lee, Y; Lee, C; Lee, J; Lee, S; Lehnen, M; Leonard, A; Leppink, E; Lesher, M; Lestz, J; Leuer, J; Leuthold, N; Li, X; Li, K; Li, E; Li, G; Li, L; Li, Z; Li, J; Li, Y; Lin, Z; Lin, D; Liu, X; Liu, J; Liu, Y; Liu, T; Liu, Y; Liu, C; Liu, Z; Liu, C; Liu, D; Liu, A; Liu, D; Loarte-Prieto, A; Lodestro, L; Logan, N; Lohr, J; Lombardo, B; Lore, J; Luan, Q; Luce, T; Luda Di Cortemiglia, T; Luhmann, N; Lunsford, R; Luo, Z; Lvovskiy, A; Lyons, B; Ma, X; Madruga, M; Madsen, B; Maggi, C; Maheshwari, K; Mail, A; Mailloux, J; Maingi, R; Major, M; Makowski, M; Manchanda, R; Marini, C; Marinoni, A; Maris, A; Markovic, T; Marrelli, L; Martin, E; Mateja, J; Matsunaga, G; Maurizio, R; Mauzey, P; Mauzey, D; Mcardle, G; Mcclenaghan, J; Mccollam, K; Mcdevitt, C; Mckay, K; Mckee, G; Mclean, A; Mehta, V; Meier, E; Menard, J; Meneghini, O; Merlo, G; Messer, S; Meyer, W; Michael, C; Michoski, C; Milne, P; Minet, G; Misleh, A; Mitrishkin, Y; Moeller, C; Montes, K; Morales, M; Mordijck, S; Moreau, D; Morosohk, S; Morris, P; Morton, L; Moser, A; Moyer, R; Moynihan, C; Mrazkova, T; Mueller, D; Munaretto, S; Munoz Burgos, J; Murphy, C; Murphy, K; Muscatello, C; Myers, C; Nagy, A; Nandipati, G; Navarro, M; Nave, F; Navratil, G; Nazikian, R; Neff, A; Neilson, G; Neiser, T; Neiswanger, W; Nelson, D; Nelson, A; Nespoli, F; Nguyen, R; Nguyen, L; Nguyen, X; Nichols, J; Nocente, M; Nogami, S; Noraky, S; Norausky, N; Nornberg, M; Nygren, R; Odstrcil, T; Ogas, D; Ogorman, T; Ohdachi, S; Ohtani, Y; Okabayashi, M; Okamoto, M; Olavson, L; Olofsson, E; Omullane, M; Oneill, R; Orlov, D; Orvis, W; Osborne, T; Pace, D; Paganini Canal, G; Pajares Martinez, A; Palacios, L; Pan, C; Pan, Q; Pandit, R; Pandya, M; Pankin, A; Park, Y; Park, J; Park, J; Parker, S; Parks, P; Parsons, M; Patel, B; Pawley, C; Paz-Soldan, C; Peebles, W; Pelton, S; Perillo, R; Petty, C; Peysson, Y; Pierce, D; Pigarov, A; Pigatto, L; Piglowski, D; Pinches, S; Pinsker, R; Piovesan, P; Piper, N; Pironti, A; Pitts, R; Pizzo, J; Plank, U; Podesta, M; Poli, E; Poli, F; Ponce, D; Popovic, Z; Porkolab, M; Porter, G; Powers, C; Powers, S; Prater, R; Pratt, Q; Pusztai, I; Qian, J; Qin, X; Ra, O; Rafiq, T; Raines, T; Raman, R; Rauch, J; Raymond, A; Rea, C; Reich, M; Reiman, A; Reinhold, S; Reinke, M; Reksoatmodjo, R; Ren, Q; Ren, Y; Ren, J; Rensink, M; Renteria, J; Rhodes, T; Rice, J; Roberts, R; Robinson, J; Rodriguez Fernandez, P; Rognlien, T; Rosenthal, A; Rosiello, S; Rost, J; Roveto, J; Rowan, W; Rozenblat, R; Ruane, J; Rudakov, D; Ruiz Ruiz, J; Rupani, R; Saarelma, S; Sabbagh, S; Sachdev, J; Saenz, J; Saib, S; Salewski, M; Salmi, A; Sammuli, B; Samuell, C; Sandorfi, A; Sang, C; Sarff, J; Sauter, O; Schaubel, K; Schmitz, L; Schmitz, O; Schneider, J; Schroeder, P; Schultz, K; Schuster, E; Schwartz, J; Sciortino, F; Scotti, F; Scoville, J; Seltzman, A; Seol, S; Sfiligoi, I; Shafer, M; Sharapov, S; Shen, H; Sheng, Z; Shepard, T; Shi, S; Shibata, Y; Shin, G; Shiraki, D; Shousha, R; Si, H; Simmerling, P; Sinclair, G; Sinha, J; Sinha, P; Sips, G; Sizyuk, T; Skinner, C; Sladkomedova, A; Slendebroek, T; Slief, J; Smirnov, R; Smith, J; Smith, S; Smith, D; Snipes, J; Snoep, G; Snyder, A; Snyder, P; Solano, E; Solomon, W; Song, J; Sontag, A; Soukhanovskii, V; Spendlove, J; Spong, D; Squire, J; Srinivasan, C; Stacey, W; Staebler, G; Stagner, L; Stange, T; Stangeby, P; Stefan, R; Stemprok, R; Stephan, D; Stillerman, J; Stoltzfus-Dueck, T; Stonecipher, W; Storment, S; Strait, E; Su, D; Sugiyama, L; Sun, Y; Sun, P; Sun, Z; Sun, A; Sundstrom, D; Sung, C; Sungcoco, J; Suttrop, W; Suzuki, Y; Suzuki, T; Svyatkovskiy, A; Swee, C; Sweeney, R; Sweetnam, C; Szepesi, G; Takechi, M; Tala, T; Tanaka, K; Tang, X; Tang, S; Tao, Y; Tao, R; Taussig, D; Taylor, T; Teixeira, K; Teo, K; Theodorsen, A; Thomas, D; Thome, K; Thorman, A; Thornton, A; Ti, A; Tillack, M; Timchenko, N; Tinguely, R; Tompkins, R; Tooker, J; Torrezan De Sousa, A; Trevisan, G; Tripathi, S; Trujillo Ochoa, A; Truong, D; Tsui, C; Turco, F; Turnbull, A; Umansky, M; Unterberg, E; Vaezi, P; Vail, P; Valdez, J; Valkis, W; Van Compernolle, B; Van Galen, J; Van Kampen, R; Van Zeeland, M; Verdoolaege, G; Vianello, N; Victor, B; Viezzer, E; Vincena, S; Wade, M; Waelbroeck, F; Wai, J; Wakatsuki, T; Walker, M; Wallace, G; Waltz, R; Wampler, W; Wang, L; Wang, H; Wang, Y; Wang, H; Wang, Z; Wang, H; Wang, Z; Wang, Y; Wang, G; Ward, S; Watkins, M; Watkins, J; Wehner, W; Wei, Y; Weiland, M; Weisberg, D; Welander, A; White, A; White, R; Wiesen, S; Wilcox, R; Wilks, T; Willensdorfer, M; Wilson, H; Wingen, A; Wolde, M; Wolff, M; Woller, K; Wolz, A; Wong, H; Woodruff, S; Wu, M; Wu, Y; Wukitch, S; Wurden, G; Xiao, W; Xie, R; Xing, Z; Xu, X; Xu, C; Xu, G; Yan, Z; Yang, X; Yang, S; Yokoyama, T; Yoneda, R; Yoshida, M; You, K; Younkin, T; Yu, J; Yu, M; Yu, G; Yuan, Q; Zaidenberg, L; Zakharov, L; Zamengo, A; Zamperini, S; Zarnstorff, M; Zeger, E; Zeller, K; Zeng, L; Zerbini, M; Zhang, L; Zhang, X; Zhang, R; Zhang, B; Zhang, J; Zhang, J; Zhao, L; Zhao, B; Zheng, Y; Zheng, L; Zhu, B; Zhu, J; Zhu, Y; Zhu, Y; Zsutty, M; Zuin, M	en_US
dspace.date.submission	2023-01-23T14:16:02Z
mit.journal.volume	62	en_US
mit.journal.issue	4	en_US
mit.license	PUBLISHER_CC
mit.metadata.status	Authority Work and Publication Information Needed	en_US

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