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College of Natural Sciences(자연과학대학)Dept. of Physics(물리학과)PH-Journal Papers(저널논문)

TFTR DT experiments

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Strachan, JD / Batha, S / Beer, M / Bell, MG / Bell, RE / Belov, A / Berk, H / Bernabei, S / Bitter, M / Breizman, B / Bretz, NL / Budny, R / Bush, CE / Callen, J / Cauffman, S / Chang, Choong-Seockresearcher / Chang, Z / Cheng, CZ / Darrow, DS / Dendy, RO / Dorland, W / Duong, H / Efthimion, PC / Ernst, D / Evenson, H / Fisch, NJ / Fisher, R / Fonck, RJ / Fredrickson, ED / Fu, GY / Furth, HP / Gorelenkov, NN / Goloborod'ko, VY / Grek, B / Grisham, LR / Hammett, GW / Hawryluk, RJ / Heidbrink, W / Herrmann, HW / Herrmann, MC / Hill, KW / Hogan, J / Hooper, B / Hosea, JC / Houlberg, WA / Hughes, M / Jassby, DL / Jobes, FC / Johnson, DW / Kaita, R / Kaye, S / Kesner, J / Kim, JS / Kissick, M / Krasilnikov, AV / Kugel, H / Kumar, A / Lam, NT / Lamarche, P / Leblanc, B / Levinton, FM / Ludescher, C / Machuzak, J / Majeski, RP / Manickam, J / Mansfield, DK / Mauel, M / Mazzucato, E / McChesney, J / McCune, DC / McKee, G / McGuire, KM / Meade, DM / Medley, SS / Mikkelsen, DR / Mirnov, SV / Mueller, D / Nagayama, Y / Navratil, GA / Nazikian, R / Okabayashi, M / Osakabe, M / Owens, DK / Park, HK / Park, W / Paul, SF / Petrov, MP / Phillips, M / Phillips, P / Ramsey, AT / Rice, B / Redi, MH / Rewoldt, G / Reznik, S / Roquemore, AL / Rogers, J / Ruskov, E / Sabbagh, SA / Sasao, M / Schilling, G / Schmidt, GL / Scott, SD / Semenov, I / Senko, T / Skinner, CH / Stevenson, T / Strait, EJ / Stratton, BC / Stodiek, W / Synakowski, E / Takahashi, H / Tang, W / Taylor, G / Thompson, ME / von Goeler, S / von Halle, A / Walters, RT / Wang, S / White, R / Wieland, RM / Williams, M / Wilson, JR / Wong, KL / Wurden, GA / Yamada, M / Yavorski, V / Young, KM / Zakharov, L / Zarnstorff, MC / Zweben, SJ
The Tokamak Fusion Test Reactor (TFTR) is a large tokamak which has performed experiments with 50:50 deuterium-tritium fuelled plasmas. Since 1993, TFTR has produced about 1090 D-T plasmas using about 100 grams of tritium and producing about 1.6 GJ of D-T fusion energy. These plasmas have significant populations of 3.5 MeV alphas (the charged D-T fusion product). TFTR research has focused on alpha particle confinement, alpha driven modes, and alpha heating studies. Maximum D-T fusion power production has aided these studies, requiring simultaneously operation at high input heating power and large energy confinement time (to produce the highest temperature and density), while maintaining low impurity content. The principal limitation to the TFTR fusion power production was the disruptive stability limit. Secondary limitations were the confinement time, and limiter power handling capability.
Publisher
IOP PUBLISHING LTD
Issue Date
1997-12
Language
English
Article Type
Article; Proceedings Paper
Keywords

TRITIUM TOKAMAK PLASMA; CONFINED ALPHAS; DEUTERIUM; DETECTORS

Citation

PLASMA PHYSICS AND CONTROLLED FUSION, v.39, pp.103 - 114

ISSN
0741-3335
DOI
10.1088/0741-3335/39/12B/008
URI
http://hdl.handle.net/10203/67992
Appears in Collection
PH-Journal Papers(저널논문)
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