Overview of ASDEX Upgrade results - Development of integrated operating scenarios for ITER

S. Günter; C. Angioni; M. Apostoliceanu; C. Atanasiu; M. Balden; G. Becker; W. Becker; K. Behler; K. Behringer; A. Bergmann; R. Bilato; I. Bizyukov; V. Bobkov; T. Bolzonella; D. Borba; K. Borrass; M. Brambilla; F. Braun; A. Buhler; A. Carlson; A. Chankin; J. Chen; Y. Chen; S. Cirant; G. Conway; D. Coster; T. Dannert; K. Dimova; R. Drube; R. Dux; T. Eich; K. Engelhardt; H. U. Fahrbach; U. Fantz; L. Fattorini; M. Foley; P. Franzen; J. C. Fuchs; J. Gafert; K. Gal; G. Gantenbein; M. García Muñoz; O. Gehre; A. Geier; L. Giannone; O. Gruber; G. Haas; D. Hartmann; B. Heger; B. Heinemann; A. Herrmann; J. Hobirk; H. Hohenöcker; L. Horton; M. Huart; V. Igochine; A. Jacchia; M. Jakobi; F. Jenko; A. Kallenbach; S. Kálvin; O. Kardaun; M. Kaufmann; A. Keller; A. Kendl; M. Kick; J. W. Kim; K. Kirov; S. Klose; R. Kochergov; G. Kocsis; H. Kollotzek; C. Konz; W. Kraus; K. Krieger; T. Kurki-Suonio; B. Kurzan; K. Lackner; P. T. Lang; P. Lauber; M. Laux; F. Leuterer; J. Likonen; A. Lohs; A. Lorenz; R. Lorenzini; A. Lyssoivan; C. Maggi; H. Maier; K. Mank; A. Manini; M. E. Manso; P. Mantica; M. Maraschek; P. Martin; K. F. Mast; M. Mayer; P. McCarthy; H. Meyer; D. Meisel; H. Meister; S. Menmuir; F. Meo; P. Merkel; R. Merkel; D. Merkl; V. Mertens; F. Monaco; A. Mück; H. W. Müller; M. Münich; H. Murmann; Y. S. Na; R. Narayanan; G. Neu; R. Neu; J. Neuhauser; D. Nishijima; Y. Nishimura; J. M. Noterdaeme; I. Nunes; M. Pacco-Düchs; G. Pautasso; A. G. Peeters; G. Pereverzev; S. Pinches; E. Poli; E. Posthumus-Wolfrum; T. Pütterich; R. Pugno; E. Quigley; I. Radivojevic; G. Raupp; M. Reich; R. Riedl; T. Ribeiro; V. Rohde; J. Roth; F. Ryter; S. Saarelma; W. Sandmann; J. Santos; G. Schall; H. B. Schilling; J. Schirmer; W. Schneider; G. Schramm; J. Schweinzer; S. Schweizer; B. Scott; U. Seidel; F. Serra; C. Sihler; A. Silva; A. Sips; E. Speth; A. Stäbler; K. H. Steuer; J. Stober; B. Streibl; D. Strintzi; E. Strumberger; W. Suttrop; G. Tardini; C. Tichmann; W. Treutterer; M. Troppmann; M. Tsalas; H. Urano; P. Varela; D. Wagner; F. Wesner; E. Würsching; M. Y. Ye; S. W. Yoon; Q. Yu; B. Zaniol; D. Zasche; T. Zehetbauer; H. P. Zehrfeld; M. Zilker; H. Zohm

doi:10.1088/0029-5515/45/10/S08

Overview of ASDEX Upgrade results - Development of integrated operating scenarios for ITER

S. Günter
, C. Angioni
, M. Apostoliceanu
, C. Atanasiu
, M. Balden
, G. Becker
, W. Becker
, K. Behler
, K. Behringer
, A. Bergmann
, R. Bilato
, I. Bizyukov
, V. Bobkov
, T. Bolzonella
, D. Borba
, K. Borrass
, M. Brambilla
, F. Braun
, A. Buhler
, A. Carlson

A. Chankin, J. Chen, Y. Chen, S. Cirant, G. Conway, D. Coster, T. Dannert, K. Dimova, R. Drube, R. Dux, T. Eich, K. Engelhardt, H. U. Fahrbach, U. Fantz, L. Fattorini, M. Foley, P. Franzen, J. C. Fuchs, J. Gafert, K. Gal, G. Gantenbein, M. García Muñoz, O. Gehre, A. Geier, L. Giannone, O. Gruber, G. Haas, D. Hartmann, B. Heger, B. Heinemann, A. Herrmann, J. Hobirk, H. Hohenöcker, L. Horton, M. Huart, V. Igochine, A. Jacchia, M. Jakobi, F. Jenko, A. Kallenbach, S. Kálvin, O. Kardaun, M. Kaufmann, A. Keller, A. Kendl, M. Kick, J. W. Kim, K. Kirov, S. Klose, R. Kochergov, G. Kocsis, H. Kollotzek, C. Konz, W. Kraus, K. Krieger, T. Kurki-Suonio, B. Kurzan, K. Lackner, P. T. Lang, P. Lauber, M. Laux, F. Leuterer, J. Likonen, A. Lohs, A. Lorenz, R. Lorenzini, A. Lyssoivan, C. Maggi, H. Maier, K. Mank, A. Manini, M. E. Manso, P. Mantica, M. Maraschek, P. Martin, K. F. Mast, M. Mayer, P. McCarthy, H. Meyer, D. Meisel, H. Meister, S. Menmuir, F. Meo, P. Merkel, R. Merkel, D. Merkl, V. Mertens, F. Monaco, A. Mück, H. W. Müller, M. Münich, H. Murmann, Y. S. Na, R. Narayanan, G. Neu, R. Neu, J. Neuhauser, D. Nishijima, Y. Nishimura, J. M. Noterdaeme, I. Nunes, M. Pacco-Düchs, G. Pautasso, A. G. Peeters, G. Pereverzev, S. Pinches, E. Poli, E. Posthumus-Wolfrum, T. Pütterich, R. Pugno, E. Quigley, I. Radivojevic, G. Raupp, M. Reich, R. Riedl, T. Ribeiro, V. Rohde, J. Roth, F. Ryter, S. Saarelma, W. Sandmann, J. Santos, G. Schall, H. B. Schilling, J. Schirmer, W. Schneider, G. Schramm, J. Schweinzer, S. Schweizer, B. Scott, U. Seidel, F. Serra, C. Sihler, A. Silva, A. Sips, E. Speth, A. Stäbler, K. H. Steuer, J. Stober, B. Streibl, D. Strintzi, E. Strumberger, W. Suttrop, G. Tardini, C. Tichmann, W. Treutterer, M. Troppmann, M. Tsalas, H. Urano, P. Varela, D. Wagner, F. Wesner, E. Würsching, M. Y. Ye, S. W. Yoon, Q. Yu, B. Zaniol, D. Zasche, T. Zehetbauer, H. P. Zehrfeld, M. Zilker, H. Zohm

Laboratory for Plasma Physics

Max-Planck-Institut für Plasmaphysik
EURATOM Association-MEdC, Romania
Consorzio Rfx
Instituto Superior Técnico
Istituto di Fisica del Plasma Piero Caldirola
Dublin City University
Wigner Research Centre for Physics
University of Stuttgart
Aalto University
Helsinki University of Technology
Culham Centre for Fusion Energy
KTH-Alba Nora University Centrum
Korean Basic Science Institute
Institute of Nuclear Technology - Radiation Protection

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

32 Zitate (Scopus)

Abstract

Significant progress has been made on ASDEX Upgrade during the last two years in the basic understanding of transport, in the extension of the improved H-mode in parameter space and towards an integrated operating scenario and in the development of control methods for major performance limiting instabilities. The important features were the understanding of particle transport and the control of impurity accumulation based on it, the satisfactory operation with predominantly tungsten-clad walls, the improved H-mode operation over density ranges and for temperature ratios covering (non-simultaneously) the ITER requirements on ν^*, n/n_GW and T _e/T_i, the ELM frequency control by pellet injection and the optimization of NTM suppression by DC-ECCD through variation of the launching angle. From these experiments an integrated scenario has emerged which extrapolates to a 50% improvement in n T τ or a 30% reduction of the required current when compared with the ITER base-line assumptions, with moderately peaked electron and controllable high-Z density profiles.

Originalsprache	Englisch
Seiten (von - bis)	S98-S108
Fachzeitschrift	Nuclear Fusion
Jahrgang	45
Ausgabenummer	10
DOIs	https://doi.org/10.1088/0029-5515/45/10/S08
Publikationsstatus	Veröffentlicht - 1 Okt. 2005

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10.1088/0029-5515/45/10/S08

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Günter, S., Angioni, C., Apostoliceanu, M., Atanasiu, C., Balden, M., Becker, G., Becker, W., Behler, K., Behringer, K., Bergmann, A., Bilato, R., Bizyukov, I., Bobkov, V., Bolzonella, T., Borba, D., Borrass, K., Brambilla, M., Braun, F., Buhler, A., ... Zohm, H. (2005). Overview of ASDEX Upgrade results - Development of integrated operating scenarios for ITER. Nuclear Fusion, 45(10), S98-S108. https://doi.org/10.1088/0029-5515/45/10/S08

@article{7d247df19fa244a980ee849b8a2ae646,

title = "Overview of ASDEX Upgrade results - Development of integrated operating scenarios for ITER",

abstract = "Significant progress has been made on ASDEX Upgrade during the last two years in the basic understanding of transport, in the extension of the improved H-mode in parameter space and towards an integrated operating scenario and in the development of control methods for major performance limiting instabilities. The important features were the understanding of particle transport and the control of impurity accumulation based on it, the satisfactory operation with predominantly tungsten-clad walls, the improved H-mode operation over density ranges and for temperature ratios covering (non-simultaneously) the ITER requirements on ν*, n/nGW and T e/Ti, the ELM frequency control by pellet injection and the optimization of NTM suppression by DC-ECCD through variation of the launching angle. From these experiments an integrated scenario has emerged which extrapolates to a 50\% improvement in n T τ or a 30\% reduction of the required current when compared with the ITER base-line assumptions, with moderately peaked electron and controllable high-Z density profiles.",

author = "S. G{\"u}nter and C. Angioni and M. Apostoliceanu and C. Atanasiu and M. Balden and G. Becker and W. Becker and K. Behler and K. Behringer and A. Bergmann and R. Bilato and I. Bizyukov and V. Bobkov and T. Bolzonella and D. Borba and K. Borrass and M. Brambilla and F. Braun and A. Buhler and A. Carlson and A. Chankin and J. Chen and Y. Chen and S. Cirant and G. Conway and D. Coster and T. Dannert and K. Dimova and R. Drube and R. Dux and T. Eich and K. Engelhardt and Fahrbach, \{H. U.\} and U. Fantz and L. Fattorini and M. Foley and P. Franzen and Fuchs, \{J. C.\} and J. Gafert and K. Gal and G. Gantenbein and \{Garc{\'i}a Mu{\~n}oz\}, M. and O. Gehre and A. Geier and L. Giannone and O. Gruber and G. Haas and D. Hartmann and B. Heger and B. Heinemann and A. Herrmann and J. Hobirk and H. Hohen{\"o}cker and L. Horton and M. Huart and V. Igochine and A. Jacchia and M. Jakobi and F. Jenko and A. Kallenbach and S. K{\'a}lvin and O. Kardaun and M. Kaufmann and A. Keller and A. Kendl and M. Kick and Kim, \{J. W.\} and K. Kirov and S. Klose and R. Kochergov and G. Kocsis and H. Kollotzek and C. Konz and W. Kraus and K. Krieger and T. Kurki-Suonio and B. Kurzan and K. Lackner and Lang, \{P. T.\} and P. Lauber and M. Laux and F. Leuterer and J. Likonen and A. Lohs and A. Lorenz and R. Lorenzini and A. Lyssoivan and C. Maggi and H. Maier and K. Mank and A. Manini and Manso, \{M. E.\} and P. Mantica and M. Maraschek and P. Martin and Mast, \{K. F.\} and M. Mayer and P. McCarthy and H. Meyer and D. Meisel and H. Meister and S. Menmuir and F. Meo and P. Merkel and R. Merkel and D. Merkl and V. Mertens and F. Monaco and A. M{\"u}ck and M{\"u}ller, \{H. W.\} and M. M{\"u}nich and H. Murmann and Na, \{Y. S.\} and R. Narayanan and G. Neu and R. Neu and J. Neuhauser and D. Nishijima and Y. Nishimura and Noterdaeme, \{J. M.\} and I. Nunes and M. Pacco-D{\"u}chs and G. Pautasso and Peeters, \{A. G.\} and G. Pereverzev and S. Pinches and E. Poli and E. Posthumus-Wolfrum and T. P{\"u}tterich and R. Pugno and E. Quigley and I. Radivojevic and G. Raupp and M. Reich and R. Riedl and T. Ribeiro and V. Rohde and J. Roth and F. Ryter and S. Saarelma and W. Sandmann and J. Santos and G. Schall and Schilling, \{H. B.\} and J. Schirmer and W. Schneider and G. Schramm and J. Schweinzer and S. Schweizer and B. Scott and U. Seidel and F. Serra and C. Sihler and A. Silva and A. Sips and E. Speth and A. St{\"a}bler and Steuer, \{K. H.\} and J. Stober and B. Streibl and D. Strintzi and E. Strumberger and W. Suttrop and G. Tardini and C. Tichmann and W. Treutterer and M. Troppmann and M. Tsalas and H. Urano and P. Varela and D. Wagner and F. Wesner and E. W{\"u}rsching and Ye, \{M. Y.\} and Yoon, \{S. W.\} and Q. Yu and B. Zaniol and D. Zasche and T. Zehetbauer and Zehrfeld, \{H. P.\} and M. Zilker and H. Zohm",

year = "2005",

month = oct,

day = "1",

doi = "10.1088/0029-5515/45/10/S08",

language = "English",

volume = "45",

pages = "S98--S108",

journal = "Nuclear Fusion",

issn = "0029-5515",

number = "10",

}

Günter, S, Angioni, C, Apostoliceanu, M, Atanasiu, C, Balden, M, Becker, G, Becker, W, Behler, K, Behringer, K, Bergmann, A, Bilato, R, Bizyukov, I, Bobkov, V, Bolzonella, T, Borba, D, Borrass, K, Brambilla, M, Braun, F, Buhler, A, Carlson, A, Chankin, A, Chen, J, Chen, Y, Cirant, S, Conway, G, Coster, D, Dannert, T, Dimova, K, Drube, R, Dux, R, Eich, T, Engelhardt, K, Fahrbach, HU, Fantz, U, Fattorini, L, Foley, M, Franzen, P, Fuchs, JC, Gafert, J, Gal, K, Gantenbein, G, García Muñoz, M, Gehre, O, Geier, A, Giannone, L, Gruber, O, Haas, G, Hartmann, D, Heger, B, Heinemann, B, Herrmann, A, Hobirk, J, Hohenöcker, H, Horton, L, Huart, M, Igochine, V, Jacchia, A, Jakobi, M, Jenko, F, Kallenbach, A, Kálvin, S, Kardaun, O, Kaufmann, M, Keller, A, Kendl, A, Kick, M, Kim, JW, Kirov, K, Klose, S, Kochergov, R, Kocsis, G, Kollotzek, H, Konz, C, Kraus, W, Krieger, K, Kurki-Suonio, T, Kurzan, B, Lackner, K, Lang, PT, Lauber, P, Laux, M, Leuterer, F, Likonen, J, Lohs, A, Lorenz, A, Lorenzini, R, Lyssoivan, A, Maggi, C, Maier, H, Mank, K, Manini, A, Manso, ME, Mantica, P, Maraschek, M, Martin, P, Mast, KF, Mayer, M, McCarthy, P, Meyer, H, Meisel, D, Meister, H, Menmuir, S, Meo, F, Merkel, P, Merkel, R, Merkl, D, Mertens, V, Monaco, F, Mück, A, Müller, HW, Münich, M, Murmann, H, Na, YS, Narayanan, R, Neu, G, Neu, R, Neuhauser, J, Nishijima, D, Nishimura, Y, Noterdaeme, JM, Nunes, I, Pacco-Düchs, M, Pautasso, G, Peeters, AG, Pereverzev, G, Pinches, S, Poli, E, Posthumus-Wolfrum, E, Pütterich, T, Pugno, R, Quigley, E, Radivojevic, I, Raupp, G, Reich, M, Riedl, R, Ribeiro, T, Rohde, V, Roth, J, Ryter, F, Saarelma, S, Sandmann, W, Santos, J, Schall, G, Schilling, HB, Schirmer, J, Schneider, W, Schramm, G, Schweinzer, J, Schweizer, S, Scott, B, Seidel, U, Serra, F, Sihler, C, Silva, A, Sips, A, Speth, E, Stäbler, A, Steuer, KH, Stober, J, Streibl, B, Strintzi, D, Strumberger, E, Suttrop, W, Tardini, G, Tichmann, C, Treutterer, W, Troppmann, M, Tsalas, M, Urano, H, Varela, P, Wagner, D, Wesner, F, Würsching, E, Ye, MY, Yoon, SW, Yu, Q, Zaniol, B, Zasche, D, Zehetbauer, T, Zehrfeld, HP, Zilker, M & Zohm, H 2005, 'Overview of ASDEX Upgrade results - Development of integrated operating scenarios for ITER', Nuclear Fusion, Jg. 45, Nr. 10, S. S98-S108. https://doi.org/10.1088/0029-5515/45/10/S08

TY - JOUR

T1 - Overview of ASDEX Upgrade results - Development of integrated operating scenarios for ITER

AU - Günter, S.

AU - Angioni, C.

AU - Apostoliceanu, M.

AU - Atanasiu, C.

AU - Balden, M.

AU - Becker, G.

AU - Becker, W.

AU - Behler, K.

AU - Behringer, K.

AU - Bergmann, A.

AU - Bilato, R.

AU - Bizyukov, I.

AU - Bobkov, V.

AU - Bolzonella, T.

AU - Borba, D.

AU - Borrass, K.

AU - Brambilla, M.

AU - Braun, F.

AU - Buhler, A.

AU - Carlson, A.

AU - Chankin, A.

AU - Chen, J.

AU - Chen, Y.

AU - Cirant, S.

AU - Conway, G.

AU - Coster, D.

AU - Dannert, T.

AU - Dimova, K.

AU - Drube, R.

AU - Dux, R.

AU - Eich, T.

AU - Engelhardt, K.

AU - Fahrbach, H. U.

AU - Fantz, U.

AU - Fattorini, L.

AU - Foley, M.

AU - Franzen, P.

AU - Fuchs, J. C.

AU - Gafert, J.

AU - Gal, K.

AU - Gantenbein, G.

AU - García Muñoz, M.

AU - Gehre, O.

AU - Geier, A.

AU - Giannone, L.

AU - Gruber, O.

AU - Haas, G.

AU - Hartmann, D.

AU - Heger, B.

AU - Heinemann, B.

AU - Herrmann, A.

AU - Hobirk, J.

AU - Hohenöcker, H.

AU - Horton, L.

AU - Huart, M.

AU - Igochine, V.

AU - Jacchia, A.

AU - Jakobi, M.

AU - Jenko, F.

AU - Kallenbach, A.

AU - Kálvin, S.

AU - Kardaun, O.

AU - Kaufmann, M.

AU - Keller, A.

AU - Kendl, A.

AU - Kick, M.

AU - Kim, J. W.

AU - Kirov, K.

AU - Klose, S.

AU - Kochergov, R.

AU - Kocsis, G.

AU - Kollotzek, H.

AU - Konz, C.

AU - Kraus, W.

AU - Krieger, K.

AU - Kurki-Suonio, T.

AU - Kurzan, B.

AU - Lackner, K.

AU - Lang, P. T.

AU - Lauber, P.

AU - Laux, M.

AU - Leuterer, F.

AU - Likonen, J.

AU - Lohs, A.

AU - Lorenz, A.

AU - Lorenzini, R.

AU - Lyssoivan, A.

AU - Maggi, C.

AU - Maier, H.

AU - Mank, K.

AU - Manini, A.

AU - Manso, M. E.

AU - Mantica, P.

AU - Maraschek, M.

AU - Martin, P.

AU - Mast, K. F.

AU - Mayer, M.

AU - McCarthy, P.

AU - Meyer, H.

AU - Meisel, D.

AU - Meister, H.

AU - Menmuir, S.

AU - Meo, F.

AU - Merkel, P.

AU - Merkel, R.

AU - Merkl, D.

AU - Mertens, V.

AU - Monaco, F.

AU - Mück, A.

AU - Müller, H. W.

AU - Münich, M.

AU - Murmann, H.

AU - Na, Y. S.

AU - Narayanan, R.

AU - Neu, G.

AU - Neu, R.

AU - Neuhauser, J.

AU - Nishijima, D.

AU - Nishimura, Y.

AU - Noterdaeme, J. M.

AU - Nunes, I.

AU - Pacco-Düchs, M.

AU - Pautasso, G.

AU - Peeters, A. G.

AU - Pereverzev, G.

AU - Pinches, S.

AU - Poli, E.

AU - Posthumus-Wolfrum, E.

AU - Pütterich, T.

AU - Pugno, R.

AU - Quigley, E.

AU - Radivojevic, I.

AU - Raupp, G.

AU - Reich, M.

AU - Riedl, R.

AU - Ribeiro, T.

AU - Rohde, V.

AU - Roth, J.

AU - Ryter, F.

AU - Saarelma, S.

AU - Sandmann, W.

AU - Santos, J.

AU - Schall, G.

AU - Schilling, H. B.

AU - Schirmer, J.

AU - Schneider, W.

AU - Schramm, G.

AU - Schweinzer, J.

AU - Schweizer, S.

AU - Scott, B.

AU - Seidel, U.

AU - Serra, F.

AU - Sihler, C.

AU - Silva, A.

AU - Sips, A.

AU - Speth, E.

AU - Stäbler, A.

AU - Steuer, K. H.

AU - Stober, J.

AU - Streibl, B.

AU - Strintzi, D.

AU - Strumberger, E.

AU - Suttrop, W.

AU - Tardini, G.

AU - Tichmann, C.

AU - Treutterer, W.

AU - Troppmann, M.

AU - Tsalas, M.

AU - Urano, H.

AU - Varela, P.

AU - Wagner, D.

AU - Wesner, F.

AU - Würsching, E.

AU - Ye, M. Y.

AU - Yoon, S. W.

AU - Yu, Q.

AU - Zaniol, B.

AU - Zasche, D.

AU - Zehetbauer, T.

AU - Zehrfeld, H. P.

AU - Zilker, M.

AU - Zohm, H.

PY - 2005/10/1

Y1 - 2005/10/1

N2 - Significant progress has been made on ASDEX Upgrade during the last two years in the basic understanding of transport, in the extension of the improved H-mode in parameter space and towards an integrated operating scenario and in the development of control methods for major performance limiting instabilities. The important features were the understanding of particle transport and the control of impurity accumulation based on it, the satisfactory operation with predominantly tungsten-clad walls, the improved H-mode operation over density ranges and for temperature ratios covering (non-simultaneously) the ITER requirements on ν*, n/nGW and T e/Ti, the ELM frequency control by pellet injection and the optimization of NTM suppression by DC-ECCD through variation of the launching angle. From these experiments an integrated scenario has emerged which extrapolates to a 50% improvement in n T τ or a 30% reduction of the required current when compared with the ITER base-line assumptions, with moderately peaked electron and controllable high-Z density profiles.

AB - Significant progress has been made on ASDEX Upgrade during the last two years in the basic understanding of transport, in the extension of the improved H-mode in parameter space and towards an integrated operating scenario and in the development of control methods for major performance limiting instabilities. The important features were the understanding of particle transport and the control of impurity accumulation based on it, the satisfactory operation with predominantly tungsten-clad walls, the improved H-mode operation over density ranges and for temperature ratios covering (non-simultaneously) the ITER requirements on ν*, n/nGW and T e/Ti, the ELM frequency control by pellet injection and the optimization of NTM suppression by DC-ECCD through variation of the launching angle. From these experiments an integrated scenario has emerged which extrapolates to a 50% improvement in n T τ or a 30% reduction of the required current when compared with the ITER base-line assumptions, with moderately peaked electron and controllable high-Z density profiles.

UR - https://www.scopus.com/pages/publications/26844509307

U2 - 10.1088/0029-5515/45/10/S08

DO - 10.1088/0029-5515/45/10/S08

M3 - Article

AN - SCOPUS:26844509307

SN - 0029-5515

VL - 45

SP - S98-S108

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 10

ER -

Overview of ASDEX Upgrade results - Development of integrated operating scenarios for ITER

Abstract

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