Status and Plans for the National Spherical Torus Experimental Research Facility
スポンサーリンク
概要
- 論文の詳細を見る
An overview of the research capabilities and the future plans on the MA-class National Spherical Torus Experiment (NSTX) at Princeton is presented. NSTX research is exploring the scientific benefits of modifying the field line structure from that in more conventional aspect ratio devices, such as the tokamak. The relevant scientific issues pursued on NSTX include energy confinement, MHD stability at high β, non-inductive sustainment, solenoid-free start-up, and power and particle handling. In support of the NSTX research goal, research tools are being developed by the NSTX team. In the context of the fusion energy development path being formulated in the US, an ST-based Component Test Facility (CTF) and, ultimately a high β Demo device based on the ST, are being considered. For these, it is essential to develop high performance (high β and high confinement), steady-state (non-inductively driven) ST operational scenarios and an efficient solenoid-free start-up concept. We will also briefly describe the Next-Step-ST (NSST) device being designed to address these issues in fusion-relevant plasma conditions.
- 社団法人 電気学会の論文
著者
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Lao L.
General Atomics
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Maqueda R.
Nova Photonics
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Ellis R.
Princeton Plasma Physics Lab.
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Nishino N.
Hiroshima University, Higashihiroshima, Hiroshima, Japan
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Ono Masayuki
Princeton Plasma Physics Laboratory
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Lao L.
General Acomics
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Fredrickson E.
Princeton Plasma Physics Laboratory
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LEE S.
Korean Air
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Bell M.
Princeton University
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Bell R.
Princeton University
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Bernabei S.
Princeton University
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Bialek J.
Columbia University
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Bigelow T.
Oak Ridge National Laboratory
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Bitter M.
Princeton University
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Biewer T.
Massachusetts Institute of Technology
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Blanchard W.
Princeton University
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Boedo J.
University of California
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Bush C.
Oak Ridge National Laboratory
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Chrzanowski J.
Princeton University
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Darrow D.
Princeton University
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Dudek L
Princeton University
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Feder R.
Princeton University
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Ferron J.
General Atomics
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Foley J.
Nova Photonics
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Gates D.
Princeton University
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Gettelfinger G.
Princeton University
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Gibney T.
Princeton University
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Harvey R.
Compx
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Hatcher R.
Princeton University
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Heidbrink W.
University of California
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Jarboe T.
University of Washington
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Johnson D.
Princeton University
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Kalish M.
Princeton University
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Kaita R.
Princeton University
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Kaye S.
Princeton University
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Kessel C.
Princeton University
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Kubota S.
University of California
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Kugel H.
Princeton University
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Labik G.
Princeton University
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LeBlanc B.
Princeton University
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Lee K.
University of California
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Levinton F.
Nova Photonics
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Lowrance J.
Princeton Scientific Instruments
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Maingi R.
Oak Ridge National Laboratory
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Manickam J.
Princeton University
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Marsala R.
Princeton University
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Mastravito D.
Princeton University
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Mazzucato E.
Princeton University
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Medley S.
Princeton University
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Menard J.
Princeton University
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Mueller D.
Princeton University
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Munsat T.
University of Colorado
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Nelson B.
University of Washington
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Neumeyer C.
Princeton University
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Park H.
Princeton University
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Paul S.
Princeton University
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Peebles T.
University of California
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Perry E.
Princeton University
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Peng Y.-K.
Oak Ridge National Laboratory
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Phillips C.
Princeton University
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Pinsker R.
General Atomics
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Ramakrishnan S.
Princeton University
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Raman R.
University of Washington
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Roney P.
Princeton University
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Roquemore A.
Princeton University
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Ryan P.
Oak Ridge National Laboratory
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Sabbagh S.
Columbia University
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Schneider H.
Princeton University
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Skinner C.
Princeton University
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Smith D.
Princeton University
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Sontag A.
Columbia University
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Soukhanovskii V.
Lawrence Livermore National Laboratory
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Stevenson T.
Princeton University
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Stotler D.
Princeton University
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Stratton B.
Princeton University
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Stutman D.
Johns Hopkins University
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Swain D.
Oak Ridge National Laboratory
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Synakowski E.
Princeton University
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Takase Y.
University of Tokyo
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Taylor G.
Princeton University
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Tritz K.
Johns Hopkins University
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Halle A.
Princeton University
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Wilgen J.
Oak Ridge National Laboratory
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Williams M.
Princeton University
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Wilson J.
Princeton University
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Zatz I.
Princeton University
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Zhu W.
Columbia University
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Zweben S.
Princeton University
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Akers R.
Euratom-UKAEA Fusion Association
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Beiersdorfer P.
Lawrence Livermore National Laboratory
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Bonoli P.
Massachusetts Institute of Technology
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Bourdelle C.
CEA Cadarache
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Carter M.
Oak Ridge National Laboratory
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Chang C.
New York University
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Choe W.
Korea Advanced Institut of Science and Technology
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Davis W.
Princeton University
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Diem S.
Princeton University
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Domier C.
Princeton Scientific Instruments
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Efthimion P.
Princeton University
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Field A.
Euratom-UKAEA Fusion Association
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Finkenthal M.
Johns Hopkins University
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Fredd E.
Princeton University
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Fu G.
Princeton University
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Glasser A.
Los Alamos National Laboratory
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Goldston R.
Princeton University
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Grisham L.
Princeton University
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Gorelenkov N.
Princeton University
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Guazzotto L.
Universityh of Rochester
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Hawryluk R.
Princeton University
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Heitzenroeder P.
Princeton University
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Hill K.
Princeton University
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Houlberg W.
Oak Ridge National Laboratory
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Hosea J.
Princeton University
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Humphreys D.
General Atomics
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Jun C.
Princeton University
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Kim J.
Korea Advanced Institut of Science and Technology
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Krasheninnikov S.
University of California
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Lawson J.
Princeton University
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Luhmann N.
Princeton Scientific Instruments
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Mau T.
University of California
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Menon M.
Oak Ridge National Laboratory
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Mitarai O.
Kyushu Tokai University
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Nagata M.
Himeji Institute of Technology
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Oliaro G.
Princeton University
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Pacella D.
ENEA
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Parsells R.
Princeton University
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Pigarov A.
University of California
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Porter G.
Lawrence Livermore National Laboratory
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Ram A.
Massachusetts Institute of Technology
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Rasmussen D.
Oak Ridge National Laboratory
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Redi M.
Princeton University
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Rewoldt G.
Princeton University
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Robinson J.
Princeton University
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Ruskov E.
University of California
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Schmidt J.
Princeton University
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Semenov I.
Kurcahtov Institute
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Shaing K.
University of Wisconsin
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Shinohara K.
JAERI
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Schaffer M.
General Atomics
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Sichta P.
Princeton University
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Tang X.
Los Alamos National Laboratory
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Timberlake J.
Princeton University
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Wade M.
Oak Ridge National Laboratory
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Wampler W.
Sandia National Laboratories
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Wang Z.
Los Alamos National Laboratory
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Woolley R.
Princeton University
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Wurden G.
Los Alamos National Laboratory
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Xu X.
Lawrence Livermore National Laboratory
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Lee S.
Korea Agricultural & Rural Infrastructure Corporation
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Skinner C.
Princeton Plasma Physics Laboratory(pppl)
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Leblanc B.
Princeton Plasma Physics Lab. New Jersey Usa
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Ono Masayuki
Princeton University
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Neumeyer C.
Princeton Plasma Physics Laboratory
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Menard J.
Princeton Plasma Physics Laboratory
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Gates D.
Princeton Plasma Physics Laboratory
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Schmidt J.
Princeton Plasma Physics Laboratory
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Fredrickson E.
Princeton University
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Lee S.
Korea Basic Science Institute
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Kessel C.
Princeton Plasma Physics Laboratory
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Grisham L.
Princeton Plasma Physics Laboratory
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Synakowski E.
Princeton Plasma Physics Laboratory
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Bell R.
Princeton Plasma Physics Laboratory
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