Recent progress of the JT-60SA project

J. Ongena; The JT-60SA Team

doi:10.1088/1741-4326/aa5d01

Recent progress of the JT-60SA project

J. Ongena
, The JT-60SA Team

Laboratory for Plasma Physics

National Institutes for Quantum and Radiological Science and Technology
Fusion for Energy
QST
Commissariat à l'Énergie Atomique (CEA)
National Institute for Fusion Science
CIEMAT
Max-Planck-Institut für Plasmaphysik
Fusion for Energy
ENEA Centro Ricerche Frascati
Culham Centre for Fusion Energy
Université Aix Marseille
Consorzio Rfx
KARLSRUHER INSTITUT FUER TECHNOLOGIE
EUROfusion
Istituto di Fisica del Plasma Piero Caldirola
I.S.T.
Centre de recherches en physique des plasmas
STUDIECENTRUM VOOR KERNENERGIE / CENTRE D'ETUDE DE L'ENERGIE NUCLEAIRE
FOM Institute DIFFER
Consorzio CREATE
ITER
Wigner Research Centre for Physics
University of Tokyo
Nagoya University
Osaka University
Kyoto University
Tottori University
Institute of Plasma Physics and Laser Microfusion
Kyushu University
Keio University
Fukui University of Technology
University of Tsukuba
Japan Atomic Energy Agency
Tokyo Institute of Technology
Tohoku University
National Technical University of Athens
FORSCHUNGSZENTRUM JULICH GMBH
Kyoto Institute of Technology
Hokkaido University
Shizuoka University
Aalto University
National Institute of Technology, Gifu College
IAP
University of York

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

51 Zitate (Scopus)

Abstract

The JT-60SA project has been implemented for the purpose of an early realization of fusion energy. With a powerful and versatile NBI and ECRF system, a flexible plasma-shaping capability, and various kinds of in-vessel coils to suppress MHD instabilities, JT-60SA plays an essential role in addressing the key physics and engineering issues of ITER and DEMO. It aims to achieve the long sustainment of high integrated performance plasmas under the high β _N condition required in DEMO. The fabrication and installation of components and systems of JT-60SA procured by the EU and Japan are steadily progressing. The installation of toroidal field (TF) coils around the vacuum vessel started in December 2016. The commissioning of the cryogenic system and power supply system has been implemented in the Naka site, and JT-60SA will start operation in 2019. The JT-60SA research plan covers a wide area of issues in ITER and DEMO relevant operation regimes, and has been regularly updated on the basis of intensive discussion among European and Japanese researchers.

Originalsprache	Englisch
Aufsatznummer	102002
Fachzeitschrift	Nuclear Fusion
Jahrgang	57
Ausgabenummer	10
DOIs	https://doi.org/10.1088/1741-4326/aa5d01
Publikationsstatus	Veröffentlicht - 15 Juni 2017

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title = "Recent progress of the JT-60SA project",

abstract = "The JT-60SA project has been implemented for the purpose of an early realization of fusion energy. With a powerful and versatile NBI and ECRF system, a flexible plasma-shaping capability, and various kinds of in-vessel coils to suppress MHD instabilities, JT-60SA plays an essential role in addressing the key physics and engineering issues of ITER and DEMO. It aims to achieve the long sustainment of high integrated performance plasmas under the high β N condition required in DEMO. The fabrication and installation of components and systems of JT-60SA procured by the EU and Japan are steadily progressing. The installation of toroidal field (TF) coils around the vacuum vessel started in December 2016. The commissioning of the cryogenic system and power supply system has been implemented in the Naka site, and JT-60SA will start operation in 2019. The JT-60SA research plan covers a wide area of issues in ITER and DEMO relevant operation regimes, and has been regularly updated on the basis of intensive discussion among European and Japanese researchers.",

keywords = "DEMO, ITER, JT-60SA, broader approach activities, high β, satellite tokamak programme, superconducting tokamak",

author = "H. Shirai and P. Barabaschi and Y. Kamada and Maksoud, \{W. Abdel\} and N. Aiba and T. Akiyama and J. Alonso and C. Angioni and T. Arai and H. Arakawa and F. Ardellier and Artaud, \{J. F.\} and N. Asakura and N. Ashikawa and P. Barabaschi and E. Barbato and G. Barrera and M. Baruzzo and O. Baulaigue and S. Beaufils and M. B{\'e}coulet and S. Benkadda and F. Benoit and P. Bettini and M. Beurskens and A. Bierwage and A. Boboc and L. Boccaccini and T. Bolzonella and F. Bonne and D. Borba and J. Botija and C. Bourdelle and G. Brolatti and A. Bruschi and J. Bucalossi and S. Cabrera-P{\'e}rez and A. Canton and A. Cardella and I. Carvalho and C. Challis and I. Chapman and S. Chiba and D. Ciazynski and F. Cismondi and S. Clement-Lorenzo and G. Coccoluto and V. Cocilovo and S. Coda and J. Ongena and \{The JT-60SA Team\}",

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year = "2017",

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day = "15",

doi = "10.1088/1741-4326/aa5d01",

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AU - Barabaschi, P.

AU - Kamada, Y.

AU - Maksoud, W. Abdel

AU - Aiba, N.

AU - Akiyama, T.

AU - Alonso, J.

AU - Angioni, C.

AU - Arai, T.

AU - Arakawa, H.

AU - Ardellier, F.

AU - Artaud, J. F.

AU - Asakura, N.

AU - Ashikawa, N.

AU - Barabaschi, P.

AU - Barbato, E.

AU - Barrera, G.

AU - Baruzzo, M.

AU - Baulaigue, O.

AU - Beaufils, S.

AU - Bécoulet, M.

AU - Benkadda, S.

AU - Benoit, F.

AU - Bettini, P.

AU - Beurskens, M.

AU - Bierwage, A.

AU - Boboc, A.

AU - Boccaccini, L.

AU - Bolzonella, T.

AU - Bonne, F.

AU - Borba, D.

AU - Botija, J.

AU - Bourdelle, C.

AU - Brolatti, G.

AU - Bruschi, A.

AU - Bucalossi, J.

AU - Cabrera-Pérez, S.

AU - Canton, A.

AU - Cardella, A.

AU - Carvalho, I.

AU - Challis, C.

AU - Chapman, I.

AU - Chiba, S.

AU - Ciazynski, D.

AU - Cismondi, F.

AU - Clement-Lorenzo, S.

AU - Coccoluto, G.

AU - Cocilovo, V.

AU - Coda, S.

AU - Ongena, J.

AU - The JT-60SA Team

PY - 2017/6/15

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N2 - The JT-60SA project has been implemented for the purpose of an early realization of fusion energy. With a powerful and versatile NBI and ECRF system, a flexible plasma-shaping capability, and various kinds of in-vessel coils to suppress MHD instabilities, JT-60SA plays an essential role in addressing the key physics and engineering issues of ITER and DEMO. It aims to achieve the long sustainment of high integrated performance plasmas under the high β N condition required in DEMO. The fabrication and installation of components and systems of JT-60SA procured by the EU and Japan are steadily progressing. The installation of toroidal field (TF) coils around the vacuum vessel started in December 2016. The commissioning of the cryogenic system and power supply system has been implemented in the Naka site, and JT-60SA will start operation in 2019. The JT-60SA research plan covers a wide area of issues in ITER and DEMO relevant operation regimes, and has been regularly updated on the basis of intensive discussion among European and Japanese researchers.

AB - The JT-60SA project has been implemented for the purpose of an early realization of fusion energy. With a powerful and versatile NBI and ECRF system, a flexible plasma-shaping capability, and various kinds of in-vessel coils to suppress MHD instabilities, JT-60SA plays an essential role in addressing the key physics and engineering issues of ITER and DEMO. It aims to achieve the long sustainment of high integrated performance plasmas under the high β N condition required in DEMO. The fabrication and installation of components and systems of JT-60SA procured by the EU and Japan are steadily progressing. The installation of toroidal field (TF) coils around the vacuum vessel started in December 2016. The commissioning of the cryogenic system and power supply system has been implemented in the Naka site, and JT-60SA will start operation in 2019. The JT-60SA research plan covers a wide area of issues in ITER and DEMO relevant operation regimes, and has been regularly updated on the basis of intensive discussion among European and Japanese researchers.

KW - DEMO

KW - ITER

KW - JT-60SA

KW - broader approach activities

KW - high β

KW - satellite tokamak programme

KW - superconducting tokamak

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DO - 10.1088/1741-4326/aa5d01

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AN - SCOPUS:85028471866

SN - 0029-5515

VL - 57

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 10

M1 - 102002

ER -

Recent progress of the JT-60SA project

Abstract

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