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1. Overview of ASDEX upgrade results

Author

Zohm H., Adamek J., Angioni C., Antar G., Atanasiu C. V., Balden M., Becker W., Behler K., Behringer K., Bergmann A., Bertoncelli T., Bilato R., Bobkov V., Boom J., Bottino A., Brambilla M., Braun F., Bruedgam M., Buhler A., Chankin A., Classen I., Conway G. D., Coster D. P., de Marne P., D'Inca R., Drube R., Dux R., Eich T., Engelhardt K., Esposito B., Fahrbach H-U., Fattorini L., Fink J., Fischer R., Flaws A., Foley M., Forest C., Fuchs J. C., Gal K., Munoz M. Garcia, Adamov M. Gemisic, Giannone L., Goerler T., Gori S., da Graca S., Granucci G., Greuner H., Gruber O., Gude A., Guenter S., Haas G., Hahn D., Harhausen J., Hauff T., Heinemann B., Herrmann A., Hicks N., Hobirk J., Hoelzl M., Holtum D., Hopf C., Horton L., Huart M., Igochine V., Janzer M., Jenko F., Kallenbach A., Kalvin S., Kardaun O., Kaufmann M., Kick M., Kirk A., Klingshirn H-J., Koscis G., Kollotzek H., Konz C., Krieger K., Kurki-Suonio, Kurzan B., Lackner K., Lang P. T., Langer B., Lauber P., Laux M., Leuterer F., Likonen J., Liu L., Lohs A., Lunt T., Lyssoivan A., Maggi C. F., Manini A., Mank K., Manso M-E., Mantsinen M., Maraschek M., Martin P., Mayer M., McCarthy P., McCormick K., Meister H., Meo F., Merkel P., Merkel R., Mertens V., Merz F., Meyer H., Mlynek A., Monaco F., Mueller H-W., Muenich M., Murmann H., Neu G., Neu R., Neuhauser J., Nold B., Noterdaeme J-M., Pautasso G., Pereverzev G., Poli E., Potzel, Pueschel M., Puetterich T., Pugno R., Raupp G., Reich M., Reiter B., Ribeiro T., Riedl R., Rohde V., Roth J., Rott M., Ryter F., Sandmann W., Santos J., Sassenberg, Sauter P., Scarabosio A., Schall G., Schilling H-B., Schirmer J., Schmid A., Schmid K., Schneider W., Schramm G., Schrittwieser R., Schustereder W., Schweinzer J., Schweizer S., Scott B., Seidel U., Sempf M., Serra F., Sertoli M., Siccinio M., Sigalov A., Silva A., Sips C. C., Speth E., Staebler A., Stadler R., Steuer K-H., Stober J., Streibl B., Strumberger E., Suttrop W., Tardini G., Tichmann C., Treutterer W., Troester C., Urso L., Vainonen-Ahlgren E., Varela P., Vermare L., Volpe F., Wagner D., Wigger C., Wischmeier M., Wolfrum E., Wuersching E., Yadikin D., Yu Q., Zasche D., Zehetbauer T., and Zilker M.

Subjects
Nuclear and High Energy Physics, Materials science, Nuclear engineering, Condensed Matter Physics, 7. Clean energy, 01 natural sciences, 010305 fluids & plasmas, ASDEX Upgrade, ITER, 0103 physical sciences, tokamak physics, 010306 general physics, DEMO, nuclear fusion
Abstract

ASDEX Upgrade was operated with a fully W-covered wall in 2007 and 2008. Stationary H-modes at the ITER target values and improved H-modes with H up to 1.2 were run without any boronization. The boundary conditions set by the full W wall (high enough ELM frequency, high enough central heating and low enough power density arriving at the target plates) require significant scenario development, but will apply to ITER as well. D retention has been reduced and stationary operation with saturated wall conditions has been found. Concerning confinement, impurity ion transport across the pedestal is neoclassical, explaining the strong inward pinch of high-Z impurities in between ELMs. In improved H-mode, the width of the temperature pedestal increases with heating power, consistent with a β1/2pol,ped scaling. In the area of MHD instabilities, disruption mitigation experiments using massive Ne injection reach volume averaged values of the total electron density close to those required for runaway suppression in ITER. ECRH at the q = 2 surface was successfully applied to delay density limit disruptions. The characterization of fast particle losses due to MHD has shown the importance of different loss mechanisms for NTMs, TAEs and also beta-induced Alfven eigenmodes (BAEs). Specific studies addressing the first ITER operational phase show that O1 ECRH at the HFS assists reliable low-voltage breakdown. During ramp-up, additional heating can be used to vary li to fit within the ITER range. Confinement and power threshold in He are more favourable than in H, suggesting that He operation could allow us to assess H-mode operation in the non-nuclear phase of ITER operation.

Published
2009

2. Overview of ASDEX Upgrade results

Author

Stroth, U., primary, Adamek, J., additional, Aho-Mantila, L., additional, Äkäslompolo, S., additional, Amdor, C., additional, Angioni, C., additional, Balden, M., additional, Bardin, S., additional, Barrera Orte, L., additional, Behler, K., additional, Belonohy, E., additional, Bergmann, A., additional, Bernert, M., additional, Bilato, R., additional, Birkenmeier, G., additional, Bobkov, V., additional, Boom, J., additional, Bottereau, C., additional, Bottino, A., additional, Braun, F., additional, Brezinsek, S., additional, Brochard, T., additional, Brüdgam, M., additional, Buhler, A., additional, Burckhart, A., additional, Casson, F.J., additional, Chankin, A., additional, Chapman, I., additional, Clairet, F., additional, Classen, I.G.J., additional, Coenen, J.W., additional, Conway, G.D., additional, Coster, D.P., additional, Curran, D., additional, da Silva, F., additional, de Marné, P., additional, D'Inca, R., additional, Douai, D., additional, Drube, R., additional, Dunne, M., additional, Dux, R., additional, Eich, T., additional, Eixenberger, H., additional, Endstrasser, N., additional, Engelhardt, K., additional, Esposito, B., additional, Fable, E., additional, Fischer, R., additional, Fünfgelder, H., additional, Fuchs, J.C., additional, Gál, K., additional, García Muñoz, M., additional, Geiger, B., additional, Giannone, L., additional, Görler, T., additional, da Graca, S., additional, Greuner, H., additional, Gruber, O., additional, Gude, A., additional, Guimarais, L., additional, Günter, S., additional, Haas, G., additional, Hakola, A.H., additional, Hangan, D., additional, Happel, T., additional, Härtl, T., additional, Hauff, T., additional, Heinemann, B., additional, Herrmann, A., additional, Hobirk, J., additional, Höhnle, H., additional, Hölzl, M., additional, Hopf, C., additional, Houben, A., additional, Igochine, V., additional, Ionita, C., additional, Janzer, A., additional, Jenko, F., additional, Kantor, M., additional, Käsemann, C.-P., additional, Kallenbach, A., additional, Kálvin, S., additional, Kappatou, A., additional, Kardaun, O., additional, Kasparek, W., additional, Kaufmann, M., additional, Kirk, A., additional, Klingshirn, H.-J., additional, Kocan, M., additional, Kocsis, G., additional, Konz, C., additional, Koslowski, R., additional, Krieger, K., additional, Kubic, M., additional, Kurki-Suonio, T., additional, Kurzan, B., additional, Lackner, K., additional, Lang, P.T., additional, Lauber, P., additional, Laux, M., additional, Lazaros, A., additional, Leipold, F., additional, Leuterer, F., additional, Lindig, S., additional, Lisgo, S., additional, Lohs, A., additional, Lunt, T., additional, Maier, H., additional, Makkonen, T., additional, Mank, K., additional, Manso, M.-E., additional, Maraschek, M., additional, Mayer, M., additional, McCarthy, P.J., additional, McDermott, R., additional, Mehlmann, F., additional, Meister, H., additional, Menchero, L., additional, Meo, F., additional, Merkel, P., additional, Merkel, R., additional, Mertens, V., additional, Merz, F., additional, Mlynek, A., additional, Monaco, F., additional, Müller, S., additional, Müller, H.W., additional, Münich, M., additional, Neu, G., additional, Neu, R., additional, Neuwirth, D., additional, Nocente, M., additional, Nold, B., additional, Noterdaeme, J.-M., additional, Pautasso, G., additional, Pereverzev, G., additional, Plöckl, B., additional, Podoba, Y., additional, Pompon, F., additional, Poli, E., additional, Polozhiy, K., additional, Potzel, S., additional, Püschel, M.J., additional, Pütterich, T., additional, Rathgeber, S.K., additional, Raupp, G., additional, Reich, M., additional, Reimold, F., additional, Ribeiro, T., additional, Riedl, R., additional, Rohde, V., additional, Rooij, G. v., additional, Roth, J., additional, Rott, M., additional, Ryter, F., additional, Salewski, M., additional, Santos, J., additional, Sauter, P., additional, Scarabosio, A., additional, Schall, G., additional, Schmid, K., additional, Schneider, P.A., additional, Schneider, W., additional, Schrittwieser, R., additional, Schubert, M., additional, Schweinzer, J., additional, Scott, B., additional, Sempf, M., additional, Sertoli, M., additional, Siccinio, M., additional, Sieglin, B., additional, Sigalov, A., additional, Silva, A., additional, Sommer, F., additional, Stäbler, A., additional, Stober, J., additional, Streibl, B., additional, Strumberger, E., additional, Sugiyama, K., additional, Suttrop, W., additional, Tala, T., additional, Tardini, G., additional, Teschke, M., additional, Tichmann, C., additional, Told, D., additional, Treutterer, W., additional, Tsalas, M., additional, Van Zeeland, M. A., additional, Varela, P., additional, Veres, G., additional, Vicente, J., additional, Vianello, N., additional, Vierle, T., additional, Viezzer, E., additional, Viola, B., additional, Vorpahl, C., additional, Wachowski, M., additional, Wagner, D., additional, Wauters, T., additional, Weller, A., additional, Wenninger, R., additional, Wieland, B., additional, Willensdorfer, M., additional, Wischmeier, M., additional, Wolfrum, E., additional, Würsching, E., additional, Yu, Q., additional, Zammuto, I., additional, Zasche, D., additional, Zehetbauer, T., additional, Zhang, Y., additional, Zilker, M., additional, and Zohm, H., additional

Published
2013
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3. Confinement of ‘improved H-modes’ in the all-tungsten ASDEX Upgrade with nitrogen seeding

Author

Schweinzer, J., primary, Sips, A.C.C., additional, Tardini, G., additional, Schneider, P.A., additional, Fischer, R., additional, Fuchs, J.C., additional, Gruber, O., additional, Hobirk, J., additional, Kallenbach, A., additional, McDermott, R.M., additional, Neu, R., additional, Pütterich, T., additional, Rathgeber, S.K., additional, Stober, J., additional, and Vicente, J., additional

Published
2011
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4. Overview of ASDEX Upgrade results

Author

Kallenbach, A., primary, Adamek, J., additional, Aho-Mantila, L., additional, Äkäslompolo, S., additional, Angioni, C., additional, Atanasiu, C.V., additional, Balden, M., additional, Behler, K., additional, Belonohy, E., additional, Bergmann, A., additional, Bernert, M., additional, Bilato, R., additional, Bobkov, V., additional, Boom, J., additional, Bottino, A., additional, Braun, F., additional, Brüdgam, M., additional, Buhler, A., additional, Burckhart, A., additional, Chankin, A., additional, Classen, I.G.J., additional, Conway, G.D., additional, Coster, D.P., additional, de Marné, P., additional, D'Inca, R., additional, Drube, R., additional, Dux, R., additional, Eich, T., additional, Endstrasser, N., additional, Engelhardt, K., additional, Esposito, B., additional, Fable, E., additional, Fahrbach, H.-U., additional, Fattorini, L., additional, Fischer, R., additional, Flaws, A., additional, Fünfgelder, H., additional, Fuchs, J.C., additional, Gál, K., additional, García Muñoz, M., additional, Geiger, B., additional, Gemisic Adamov, M., additional, Giannone, L., additional, Giroud, C., additional, Görler, T., additional, da Graca, S., additional, Greuner, H., additional, Gruber, O., additional, Gude, A., additional, Günter, S., additional, Haas, G., additional, Hakola, A.H., additional, Hangan, D., additional, Happel, T., additional, Hauff, T., additional, Heinemann, B., additional, Herrmann, A., additional, Hicks, N., additional, Hobirk, J., additional, Höhnle, H., additional, Hölzl, M., additional, Hopf, C., additional, Horton, L., additional, Huart, M., additional, Igochine, V., additional, Ionita, C., additional, Janzer, A., additional, Jenko, F., additional, Käsemann, C.-P., additional, Kálvin, S., additional, Kardaun, O., additional, Kaufmann, M., additional, Kirk, A., additional, Klingshirn, H.-J., additional, Kocan, M., additional, Kocsis, G., additional, Kollotzek, H., additional, Konz, C., additional, Koslowski, R., additional, Krieger, K., additional, Kurki-Suonio, T., additional, Kurzan, B., additional, Lackner, K., additional, Lang, P.T., additional, Lauber, P., additional, Laux, M., additional, Leipold, F., additional, Leuterer, F., additional, Lohs, A., additional, Luhmann, N.C., additional, Lunt, T., additional, Lyssoivan, A., additional, Maier, H., additional, Maggi, C., additional, Mank, K., additional, Manso, M.-E., additional, Maraschek, M., additional, Martin, P., additional, Mayer, M., additional, McCarthy, P.J., additional, McDermott, R., additional, Meister, H., additional, Menchero, L., additional, Meo, F., additional, Merkel, P., additional, Merkel, R., additional, Mertens, V., additional, Merz, F., additional, Mlynek, A., additional, Monaco, F., additional, Müller, H.W., additional, Münich, M., additional, Murmann, H., additional, Neu, G., additional, Neu, R., additional, Nold, B., additional, Noterdaeme, J.-M., additional, Park, H.K., additional, Pautasso, G., additional, Pereverzev, G., additional, Podoba, Y., additional, Pompon, F., additional, Poli, E., additional, Polochiy, K., additional, Potzel, S., additional, Prechtl, M., additional, Püschel, M.J., additional, Pütterich, T., additional, Rathgeber, S.K., additional, Raupp, G., additional, Reich, M., additional, Reiter, B., additional, Ribeiro, T., additional, Riedl, R., additional, Rohde, V., additional, Roth, J., additional, Rott, M., additional, Ryter, F., additional, Sandmann, W., additional, Santos, J., additional, Sassenberg, K., additional, Sauter, P., additional, Scarabosio, A., additional, Schall, G., additional, Schmid, K., additional, Schneider, P.A., additional, Schneider, W., additional, Schramm, G., additional, Schrittwieser, R., additional, Schweinzer, J., additional, Scott, B., additional, Sempf, M., additional, Serra, F., additional, Sertoli, M., additional, Siccinio, M., additional, Sigalov, A., additional, Silva, A., additional, Sips, A.C.C., additional, Sommer, F., additional, Stäbler, A., additional, Stober, J., additional, Streibl, B., additional, Strumberger, E., additional, Sugiyama, K., additional, Suttrop, W., additional, Szepesi, T., additional, Tardini, G., additional, Tichmann, C., additional, Told, D., additional, Treutterer, W., additional, Urso, L., additional, Varela, P., additional, Vincente, J., additional, Vianello, N., additional, Vierle, T., additional, Viezzer, E., additional, Vorpahl, C., additional, Wagner, D., additional, Weller, A., additional, Wenninger, R., additional, Wieland, B., additional, Wigger, C., additional, Willensdorfer, M., additional, Wischmeier, M., additional, Wolfrum, E., additional, Würsching, E., additional, Yadikin, D., additional, Yu, Q., additional, Zammuto, I., additional, Zasche, D., additional, Zehetbauer, T., additional, Zhang, Y., additional, Zilker, M., additional, and Zohm, H., additional

Published
2011
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5. Contribution of ASDEX Upgrade to disruption studies for ITER

Author

Pautasso, G., Zhang, Y., Reiter, B., Giannone, L., Gruber, O., Herrmann, A., Kardaun, O., Khayrutdinov, K. K., Lukash, V. E., Maraschek, M., Mlynek, A., Nakamura, Y., Schneider, W., Sias, G., Sugihara, M., ASDEX Upgrade Team, and ASDEX Upgrade Team

Subjects
Physics, Nuclear and High Energy Physics, Jet (fluid), Tokamak, Toroid, Plasma parameters, Plasma, Condensed Matter Physics, law.invention, Nuclear physics, ASDEX Upgrade, law, Halo, Current (fluid)
Abstract

This paper describes the most recent contributions of ASDEX Upgrade to ITER in the field of disruption studies. (1) The ITER specifications for the halo current magnitude are based on data collected from several tokamaks and summarized in the plot of the toroidal peaking factor versus the maximum halo current fraction. Even if the maximum halo current in ASDEX Upgrade reaches 50% of the plasma current, the duration of this maximum lasts a fraction of a ms. (2) Long-lasting asymmetries of the halo current are rare and do not give rise to a large asymmetric component of the mechanical forces on the machine. Differently from JET, these asymmetries are neither locked nor exhibit a stationary harmonic structure. (3) Recent work on disruption prediction has concentrated on the search for a simple function of the most relevant plasma parameters, which is able to discriminate between the safe and pre-disruption phases of a discharge. For this purpose, the disruptions of the last four years have been classified into groups and then discriminant analysis is used to select the most significant variables and to derive the discriminant function. (4) The attainment of the critical density for the collisional suppression of the runaway electrons seems to be technically and physically possible on our medium size tokamak. The CO2 interferometer and the AXUV diagnostic provide information on the highly 3D impurity transport process during the whole plasma quench.

Published
2011

6. The performance of improved H-modes at ASDEX Upgrade and projection to ITER

Author

Sips, A.C.C., primary, Tardini, G., additional, Forest, C.B., additional, Gruber, O., additional, Mc Carthy, P.J., additional, Gude, A., additional, Horton, L.D., additional, Igochine, V., additional, Kardaun, O., additional, Maggi, C.F., additional, Maraschek, M., additional, Mertens, V., additional, Neu, R., additional, Peeters, A.G., additional, Pereverzev, G.V., additional, Stäbler, A., additional, Stober, J., additional, and Suttrop, W., additional

Published
2007
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8. Plasma shut-down with fast impurity puff on ASDEX Upgrade

Author

Pautasso, G, primary, Fuchs, C.J, additional, Gruber, O, additional, Maggi, C.F, additional, Maraschek, M, additional, Pütterich, T, additional, Rohde, V, additional, Wittmann, C, additional, Wolfrum, E, additional, Cierpka, P, additional, Beck, M, additional, and Team, the ASDEX Upgrade, additional

Published
2007
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9. The role of the current profile in the improved H-mode scenario in ASDEX Upgrade

Author

Stober, J, primary, Sips, A.C.C, additional, Angioni, C, additional, Forest, C.B, additional, Gruber, O, additional, Hobirk, J, additional, Horton, L.D, additional, Maggi, C.F, additional, Maraschek, M, additional, Martin, P, additional, Carthy, P.J. Mc, additional, Mertens, V, additional, Na, Y.-S, additional, Reich, M, additional, Stäbler, A, additional, Tardini, G, additional, Zohm, H, additional, and Team, the ASDEX Upgrade, additional

Published
2007
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10. Chapter 1: Overview and summary

Author

Shimada, M, primary, Campbell, D.J, additional, Mukhovatov, V, additional, Fujiwara, M, additional, Kirneva, N, additional, Lackner, K, additional, Nagami, M, additional, Pustovitov, V.D, additional, Uckan, N, additional, Wesley, J, additional, Asakura, N, additional, Costley, A.E, additional, Donné, A.J.H, additional, Doyle, E.J, additional, Fasoli, A, additional, Gormezano, C, additional, Gribov, Y, additional, Gruber, O, additional, Hender, T.C, additional, Houlberg, W, additional, Ide, S, additional, Kamada, Y, additional, Leonard, A, additional, Lipschultz, B, additional, Loarte, A, additional, Miyamoto, K, additional, Osborne, T.H, additional, Polevoi, A, additional, and Sips, A.C.C, additional

Published
2007
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11. Chapter 3: MHD stability, operational limits and disruptions

Author

Hender, T.C, primary, Wesley, J.C, additional, Bialek, J, additional, Bondeson, A, additional, Boozer, A.H, additional, Buttery, R.J, additional, Garofalo, A, additional, Goodman, T.P, additional, Granetz, R.S, additional, Gribov, Y, additional, Gruber, O, additional, Gryaznevich, M, additional, Giruzzi, G, additional, Günter, S, additional, Hayashi, N, additional, Helander, P, additional, Hegna, C.C, additional, Howell, D.F, additional, Humphreys, D.A, additional, Huysmans, G.T.A, additional, Hyatt, A.W, additional, Isayama, A, additional, Jardin, S.C, additional, Kawano, Y, additional, Kellman, A, additional, Kessel, C, additional, Koslowski, H.R, additional, Haye, R.J. La, additional, Lazzaro, E, additional, Liu, Y.Q, additional, Lukash, V, additional, Manickam, J, additional, Medvedev, S, additional, Mertens, V, additional, Mirnov, S.V, additional, Nakamura, Y, additional, Navratil, G, additional, Okabayashi, M, additional, Ozeki, T, additional, Paccagnella, R, additional, Pautasso, G, additional, Porcelli, F, additional, Pustovitov, V.D, additional, Riccardo, V, additional, Sato, M, additional, Sauter, O, additional, Schaffer, M.J, additional, Shimada, M, additional, Sonato, P, additional, Strait, E.J, additional, Sugihara, M, additional, Takechi, M, additional, Turnbull, A.D, additional, Westerhof, E, additional, Whyte, D.G, additional, Yoshino, R, additional, Zohm, H, additional, and Group, the ITPA MHD, Disruption and Magnet, additional

Published
2007
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12. Transport studies in improved H-mode at ASDEX Upgrade

Author

Na, Yong-Su, primary, Conway, G.D, additional, Gruber, O, additional, Hobirk, J, additional, Maraschek, M, additional, Nishijima, D, additional, Schirmer, J, additional, Sips, A.C.C, additional, Stäbler, A, additional, Tardini, G, additional, and Team, the ASDEX Upgrade, additional

Published
2006
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13. Overview of ASDEX Upgrade results—development of integrated operating scenarios for ITER

Author

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

Published
2005
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14. The ‘hybrid’ scenario in JET: towards its validation for ITER

Author

Joffrin, E, primary, Sips, A.C.C, additional, Artaud, J.F, additional, Becoulet, A, additional, Bertalot, L, additional, Budny, R, additional, Buratti, P, additional, Belo, P, additional, Challis, C.D, additional, Crisanti, F, additional, Baar, M. de, additional, Vries, P. de, additional, Gormezano, C, additional, Giroud, C, additional, Gruber, O, additional, Huysmans, G.T.A, additional, Imbeaux, F, additional, Isayama, A, additional, Litaudon, X, additional, Lomas, P.J, additional, McDonald, D.C, additional, Na, Y.S, additional, Pinches, S.D, additional, Staebler, A, additional, Tala, T, additional, Tuccillo, A, additional, Zastrow, K.-D, additional, and Programme, JET-EFDA Contributors to the Work, additional

Published
2005
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15. The improved H-mode at ASDEX Upgrade: a candidate for an ITER hybrid scenario

Author

Staebler, A, primary, Sips, A.C.C, additional, Brambilla, M, additional, Bilato, R, additional, Dux, R, additional, Gruber, O, additional, Hobirk, J, additional, Horton, L.D, additional, Maggi, C.F, additional, Manini, A, additional, Maraschek, M, additional, Mück, A, additional, Na, Y.-S, additional, Neu, R, additional, Tardini, G, additional, Wade, M.R, additional, and Team, ASDEX Upgrade, additional

Published
2005
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16. Integrated exhaust scenarios with actively controlled ELMs

Author

Lang, P.T, primary, Kallenbach, A, additional, Bucalossi, J, additional, Conway, G.D, additional, Degeling, A, additional, Dux, R, additional, Eich, T, additional, Fattorini, L, additional, Gruber, O, additional, Günter, S, additional, Herrmann, A, additional, Hobirk, J, additional, Horton, L.D, additional, Kalvin, S, additional, Kocsis, G, additional, Lister, J, additional, Manso, M.E, additional, Maraschek, M, additional, Martin, Y, additional, McCarthy, P.J, additional, Mertens, V, additional, Neu, R, additional, Neuhauser, J, additional, Nunes, I, additional, Pütterich, T, additional, Rozhansky, V, additional, Schneider, R, additional, Schneider, W, additional, Senichenkov, I, additional, Sips, A.C.C, additional, Suttrop, W, additional, Treutterer, W, additional, Veselova, I, additional, Zohm, H, additional, and Team, the ASDEX Upgrade, additional

Published
2005
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17. ELM pace making and mitigation by pellet injection in ASDEX Upgrade

Author

Lang, P.T, primary, Conway, G.D, additional, Eich, T, additional, Fattorini, L, additional, Gruber, O, additional, Günter, S, additional, Horton, L.D, additional, Kalvin, S, additional, Kallenbach, A, additional, Kaufmann, M, additional, Kocsis, G, additional, Lorenz, A, additional, Manso, M.E, additional, Maraschek, M, additional, Mertens, V, additional, Neuhauser, J, additional, Nunes, I, additional, Schneider, W, additional, Suttrop, W, additional, Urano, H, additional, and Team, the ASDEX Upgrade, additional

Published
2004
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18. Overview of ASDEX Upgrade results

Author

Zohm, H, primary, Angioni, C, additional, Arslanbekov, R, additional, Atanasiu, C, additional, Becker, G, additional, Becker, W, additional, Behler, K, additional, Behringer, K, additional, Bergmann, A, additional, Bilato, R, additional, Bobkov, V, additional, Bolshukhin, D, additional, Bolzonella, T, additional, Borrass, K, additional, Brambilla, M, additional, Braun, F, additional, Buhler, A, additional, Carlson, A, additional, Conway, G.D, additional, Coster, D.P, additional, Drube, R, additional, Dux, R, additional, Egorov, S, additional, Eich, T, additional, Engelhardt, K, additional, Fahrbach, H.-U, additional, Fantz, U, additional, Faugel, H, additional, Finken, K.H, additional, Foley, M, additional, Franzen, P, additional, Fuchs, J.C, additional, Gafert, J, additional, Fournier, K.B, additional, Gantenbein, G, additional, Gehre, O, additional, Geier, A, additional, Gernhardt, J, additional, Goodman, T, additional, Gruber, O, additional, Gude, A, additional, Günter, S, additional, Haas, G, additional, Hartmann, D, additional, Heger, B, additional, Heinemann, B, additional, Herrmann, A, additional, Hobirk, J, additional, Hofmeister, F, additional, Hohenöcker, H, additional, Horton, L.D, additional, Igochine, V, additional, Jacchia, A, additional, Jakobi, M, additional, Jenko, F, additional, Kallenbach, A, additional, Kardaun, O, additional, Kaufmann, M, additional, Keller, A, additional, Kendl, A, additional, Kim, J.-W, additional, Kirov, K, additional, Kochergov, R, additional, Kollotzek, H, additional, Kraus, W, additional, Krieger, K, additional, Kurki-Suonio, T, additional, Kurzan, B, additional, Lang, P.T, additional, Lasnier, C, additional, Lauber, P, additional, Laux, M, additional, Leonard, A.W, additional, Leuterer, F, additional, Lohs, A, additional, Lorenz, A, additional, Lorenzini, R, additional, Maggi, C, additional, Maier, H, additional, Mank, K, additional, Manso, M.-E, additional, Mantica, P, additional, Maraschek, M, additional, Martines, E, additional, Mast, K.-F, additional, McCarthy, P, additional, Meisel, D, additional, Meister, H, additional, Meo, F, additional, Merkel, P, additional, Merkel, R, additional, Merkl, D, additional, Mertens, V, additional, Monaco, F, additional, Mück, A, additional, Müller, H.W, additional, Münich, M, additional, Murmann, H, additional, Na, Y.-S, additional, Neu, G, additional, Neu, R, additional, Neuhauser, J, additional, Nguyen, F, additional, Nishijima, D, additional, Nishimura, Y, additional, Noterdaeme, J.-M, additional, Nunes, I, additional, Pautasso, G, additional, Peeters, A.G, additional, Pereverzev, G, additional, Pinches, S.D, additional, Poli, E, additional, Proschek, M, additional, Pugno, R, additional, Quigley, E, additional, Raupp, G, additional, Reich, M, additional, Ribeiro, T, additional, Riedl, R, additional, Rohde, V, additional, Roth, J, additional, Ryter, F, additional, Saarelma, S, additional, Sandmann, W, additional, Savtchkov, A, additional, Sauter, O, additional, Schade, S, additional, Schilling, H.-B, additional, Schneider, W, additional, Schramm, G, additional, Schwarz, E, additional, Schweinzer, J, additional, Schweizer, S, additional, Scott, B.D, additional, Seidel, U, additional, Serra, F, additional, Sesnic, S, additional, Sihler, C, additional, Silva, A, additional, Sips, A.C.C, additional, Speth, E, additional, Stäbler, A, additional, Steuer, K.-H, additional, Stober, J, additional, Streibl, B, additional, Strumberger, E, additional, Suttrop, W, additional, Tabasso, A, additional, Tanga, A, additional, Tardini, G, additional, Tichmann, C, additional, Treutterer, W, additional, Troppmann, M, additional, Urano, H, additional, Varela, P, additional, Vollmer, O, additional, Wagner, D, additional, Wenzel, U, additional, Wesner, F, additional, Westerhof, E, additional, Wolf, R, additional, Wolfrum, E, additional, Würsching, E, additional, Yoon, S.-W, additional, Yu, Q, additional, Zasche, D, additional, Zehetbauer, T, additional, and Zehrfeld, H.-P, additional

Published
2003
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19. Dependence of particle transport on heating profiles in ASDEX Upgrade

Author

Stober, J, primary, Dux, R, additional, Gruber, O, additional, Horton, L, additional, Lang, P, additional, Lorenzini, R, additional, Maggi, C, additional, Meo, F, additional, Neu, R, additional, Noterdaeme, J.-M, additional, Peeters, A, additional, Pereverzev, G, additional, Ryter, F, additional, Sips, A.C.C, additional, Stäbler, A, additional, Zohm, H, additional, and Team, the ASDEX Upgrade, additional

Published
2003
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20. The ASDEX Upgrade divertor IIb—a closed divertor for strongly shaped plasmas

Author

Neu, R, primary, Fuchs, J.C, additional, Kallenbach, A, additional, Maggi, C, additional, Rohde, V, additional, Ryter, F, additional, Eich, T, additional, Gafert, J, additional, Gruber, O, additional, Haas, G, additional, Herrmann, A, additional, Kaufmann, M, additional, Laux, M, additional, Mertens, V, additional, Müller, H.W, additional, Neuhauser, J, additional, Pütterich, T, additional, Stober, J, additional, Yoon, S.W, additional, and Team, the ASDEX Upgrade, additional

Published
2003
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22. On-line prediction and mitigation of disruptions in ASDEX Upgrade

Author

Pautasso, G, primary, Tichmann, C, additional, Egorov, S, additional, Zehetbauer, T, additional, Gruber, O, additional, Maraschek, M, additional, Mast, K.-F, additional, Mertens, V, additional, Perchermeier, I, additional, Raupp, G, additional, Treutterer, W, additional, Windsor, C.G, additional, and Team, ASDEX Upgrade, additional

Published
2002
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24. Overview of ASDEX Upgrade results

Author

Gruber, O., primary, Arslanbekov, R., additional, Atanasiu, C., additional, Bard, A., additional, Becker, G., additional, Becker, W., additional, Beckmann, M., additional, Behler, K., additional, Behringer, K., additional, Bergmann, A., additional, Bilato, R., additional, Bolshukin, D., additional, Borrass, K., additional, Bosch, H.-S., additional, Braams, B., additional, Brambilla, M., additional, Brandenburg, R., additional, Braun, F., additional, Brinkschulte, H., additional, Brückner, R., additional, Brüsehaber, B., additional, Büchl, K., additional, Buhler, A., additional, Bürbaumer, H., additional, Carlson, A., additional, Ciric, M., additional, Conway, G., additional, Coster, D.P., additional, Dorn, C., additional, Drube, R., additional, Dux, R., additional, Egorov, S., additional, Engelhardt, W., additional, Fahrbach, H.-U., additional, Fantz, U., additional, Faugel, H., additional, Foley, M., additional, Franzen, P., additional, Fu, P., additional, Fuchs, J.C., additional, Gafert, J., additional, Gantenbein, G., additional, Gehre, O., additional, Geier, A., additional, Gernhardt, J., additional, Gubanka, E., additional, Gude, A., additional, Günter, S., additional, Haas, G., additional, Hartmann, D., additional, Heinemann, B., additional, Herrmann, A., additional, Hobirk, J., additional, Hofmeister, F., additional, Hohenöcker, H., additional, Horton, L., additional, Hu, L., additional, Jacobi, D., additional, Jakobi, M., additional, Jenko, F., additional, Kallenbach, A., additional, Kardaun, O., additional, Kaufmann, M., additional, Kendl, A., additional, Kim, J.-W., additional, Kirov, K., additional, Kochergov, R., additional, Kollotzek, H., additional, Kraus, W., additional, Krieger, K., additional, Kurzan, B., additional, Kyriakakis, G., additional, Lackner, K., additional, Lang, P.T., additional, Lang, R.S., additional, Laux, M., additional, Lengyel, L., additional, Leuterer, F., additional, Lorenz, A., additional, Maier, H., additional, Mank, K., additional, Manso, M.-E., additional, Maraschek, M., additional, Mast, K.-F., additional, McCarthy, P.J., additional, Meisel, D., additional, Meister, H., additional, Meo, F., additional, Merkel, R., additional, Mertens, V., additional, Meskat, J.P., additional, Monk, R., additional, Müller, H.W., additional, Münich, M., additional, Murmann, H., additional, Neu, G., additional, Neu, R., additional, Neuhauser, J., additional, Noterdaeme, J.-M., additional, Nunes, I., additional, Pautasso, G., additional, Peeters, A.G., additional, Pereverzev, G., additional, Pinches, S., additional, Poli, E., additional, Pugno, R., additional, Raupp, G., additional, Ribeiro, T., additional, Riedl, R., additional, Riondato, S., additional, Rohde, V., additional, Röhr, H., additional, Roth, J., additional, Ryter, F., additional, Salzmann, H., additional, Sandmann, W., additional, Sarelma, S., additional, Schade, S., additional, Schilling, H.-B., additional, Schlögl, D., additional, Schmidtmann, K., additional, Schneider, R., additional, Schneider, W., additional, Schramm, G., additional, Schweinzer, J., additional, Schweizer, S., additional, Scott, B.D., additional, Seidel, U., additional, Serra, F., additional, Sesnic, S., additional, Sihler, C., additional, Silva, A., additional, Sips, A., additional, Speth, E., additional, Stäbler, A., additional, Steuer, K.-H., additional, Stober, J., additional, Streibl, B., additional, Strumberger, E., additional, Suttrop, W., additional, Tabasso, A., additional, Tanga, A., additional, Tardini, G., additional, Tichmann, C., additional, Treutterer, W., additional, Troppmann, M., additional, Tsois, N., additional, Ullrich, W., additional, Ulrich, M., additional, Varela, P., additional, Vollmer, O., additional, Wenzel, U., additional, Wesner, F., additional, Wolf, R., additional, Wolfrum, E., additional, Wunderlich, R., additional, Xantopoulos, N., additional, Yu, Q., additional, Zarrabian, M., additional, Zasche, D., additional, Zehetbauer, T., additional, Zehrfeld, H.-P., additional, Zeiler, A., additional, and Zohm, H., additional

Published
2001
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25. Performance, heating and current drive scenarios of ASDEX Upgrade advanced tokamak discharges

Author

Wolf, R.C, primary, Hobirk, J, additional, Conway, G.D, additional, Gruber, O, additional, Gude, A, additional, Günter, S, additional, Kirov, K, additional, Kurzan, B, additional, Leuterer, F, additional, Maraschek, M, additional, McCarthy, P.J, additional, Meister, H, additional, Pereverzev, G.V, additional, Poli, E, additional, Ryter, F, additional, Treutterer, W, additional, Yu, Q, additional, and Team, ASDEX Upgrade, additional

Published
2001
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27. Refuelling performance improvement by high speed pellet launch from the magnetic high field side

Author

Lang, P.T., primary, Lorenz, A., additional, Mertens, V., additional, Fuchs, J.C., additional, Gafert, J., additional, Gehre, O., additional, Gruber, O., additional, Haas, G., additional, Kaufmann, M., additional, Kurzan, B., additional, Maraschek, M., additional, Müller, H.W., additional, Murmann, H.D., additional, Neuhauser, J., additional, Reich, M., additional, Schneider, W., additional, Vergamota, S., additional, and Team, ASDEX Upgrade, additional

Published
2001
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28. Confinement and transport studies of conventional scenarios in ASDEX Upgrade

Author

Ryter, F, primary, Stober, J, additional, Stäbler, A, additional, Tardini, G, additional, Fahrbach, H.-U, additional, Gruber, O, additional, Herrmann, A, additional, Kallenbach, A, additional, Kaufmann, M, additional, Kurzan, B, additional, Leuterer, F, additional, Maraschek, M, additional, Meister, H, additional, Peeters, A.G, additional, Pereverzev, G, additional, Sips, A.C.C, additional, Suttrop, W, additional, Treutterer, W, additional, Zohm, H, additional, and Team, ASDEX Upgrade, additional

Published
2001
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31. Overview of ASDEX Upgrade results

Author

Gruber, O, primary, Bosch, H.-S, additional, Günter, S, additional, Herrmann, A, additional, Kallenbach, A, additional, Kaufmann, M, additional, Krieger, K, additional, Lackner, K, additional, Mertens, V, additional, Neu, R, additional, Ryter, F, additional, Schweinzer, J, additional, Stäbler, A, additional, Suttrop, W, additional, Wolf, R, additional, Asmussen, K, additional, Bard, A, additional, Becker, G, additional, Behler, K, additional, Behringer, K, additional, Bergmann, A, additional, Bessenrodt-Weberpals, M, additional, Borrass, K, additional, Braams, B, additional, Brambilla, M, additional, Brandenburg, R, additional, Braun, F, additional, Brinkschulte, H, additional, Brückner, R, additional, Brüsehaber, B, additional, Büchl, K, additional, Buhler, A, additional, Callaghan, H.P, additional, Carlson, A, additional, Coster, D.P, additional, Cupido, L, additional, Hempel, S. de Peña, additional, Dorn, C, additional, Drube, R, additional, Dux, R, additional, Egorov, S, additional, Engelhardt, W, additional, Fahrbach, H.-U, additional, Fantz, U, additional, Feist, H.-U, additional, Franzen, P, additional, Fuchs, J.C, additional, Fussmann, G, additional, Gafert, J, additional, Gantenbein, G, additional, Gehre, O, additional, Geier, A, additional, Gernhardt, J, additional, Gubanka, E, additional, Gude, A, additional, Haas, G, additional, Hallatschek, K, additional, Hartmann, D, additional, Heinemann, B, additional, Herppich, G, additional, Herrmann, W, additional, Hofmeister, F, additional, Holzhauer, E, additional, Jacobi, D, additional, Kakoulidis, M, additional, Karakatsanis, N, additional, Kardaun, O, additional, Khutoretski, A, additional, Kollotzek, H, additional, Kötterl, S, additional, Kraus, W, additional, Kurzan, B, additional, Kyriakakis, G, additional, Lang, P.T, additional, Lang, R.S, additional, Laux, M, additional, Lengyel, L.L, additional, Leuterer, F, additional, Lorenz, A, additional, Maier, H, additional, Manso, M, additional, Maraschek, M, additional, Markoulaki, M, additional, Mast, K.-F, additional, McCarthy, P.J, additional, Meisel, D, additional, Meister, H, additional, Merkel, R, additional, Meskat, J.P, additional, Müller, H.W, additional, Münich, M, additional, Murmann, H, additional, Napiontek, B, additional, Neu, G, additional, Neuhauser, J, additional, Niethammer, M, additional, Noterdaeme, J.-M, additional, Pautasso, G, additional, Peeters, A.G, additional, Pereverzev, G, additional, Pinches, S, additional, Raupp, G, additional, Reinmüller, K, additional, Riedl, R, additional, Rohde, V, additional, Röhr, H, additional, Roth, J, additional, Salzmann, H, additional, Sandmann, W, additional, Schilling, H.-B, additional, Schlögl, D, additional, Schmidtmann, K, additional, Schneider, H, additional, Schneider, R, additional, Schneider, W, additional, Schramm, G, additional, Schweizer, S, additional, Schwörer, R.R, additional, Scott, B.D, additional, Seidel, U, additional, Serra, F, additional, Sesnic, S, additional, Sihler, C, additional, Silva, A, additional, Speth, E, additional, Steuer, K.-H, additional, Stober, J, additional, Streibl, B, additional, Thoma, A, additional, Treutterer, W, additional, Troppmann, M, additional, Tsois, N, additional, Ullrich, W, additional, Ulrich, M, additional, Varela, P, additional, Verbeek, H, additional, Vollmer, O, additional, Wedler, H, additional, Weinlich, M, additional, Wenzel, U, additional, Wesner, F, additional, Wunderlich, R, additional, Xantopoulos, N, additional, Yu, Q, additional, Zasche, D, additional, Zehetbauer, T, additional, Zehrfeld, H.-P, additional, Zohm, H, additional, and Zouhar, M, additional

Published
1999
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33. Pellet fuelling of ELMy H mode discharges on ASDEX upgrade

Author

Lang, P.T, primary, Zohm, H, additional, Büchl, K, additional, Fuchs, J.C, additional, Gehre, O, additional, Gruber, O, additional, Mertens, V, additional, Müller, H.W, additional, Neuhauser, J, additional, Team, ASDEX Upgrade, additional, and Team, NBI, additional

Published
1997
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36. H mode discharges with feedback controlled radiative boundary in the ASDEX Upgrade tokamak

Author

Kallenbach, A, primary, Dux, R, additional, Mertens, V, additional, Gruber, O, additional, Haas, G, additional, Kaufmann, M, additional, Poschenrieder, W, additional, Ryter, F, additional, Zohm, H, additional, Alexander, M, additional, Behringer, K.H, additional, Bessenrodt-Weberpals, M, additional, Bosch, H.-S, additional, Buchl, K, additional, Field, A.R, additional, Fuchs, J.C, additional, Gehre, O, additional, Herrmann, A, additional, Hirsch, S, additional, Koppendorfer, W, additional, Lackner, K, additional, Mast, K.F, additional, Neu, G, additional, Neuhauser, J, additional, Hempel, S. De Pena, additional, Raupp, G, additional, Schonmann, K, additional, Stabler, A, additional, Steuer, K.-H, additional, Vollmer, O, additional, Weinlich, M, additional, West, W.P, additional, and Zehetbauer, T, additional

Published
1995
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42. The ‘hybrid’ scenario in JET: towards its validation for ITER

Author

Joffrin, E., Sips, A.C.C., Artaud, J.F., Becoulet, A., Bertalot, L., Budny, R., Buratti, P., Belo, P., Challis, C.D., Crisanti, F., Baar, M. de, Vries, P. de, Gormezano, C., Giroud, C., Gruber, O., Huysmans, G.T.A., Imbeaux, F., Isayama, A., Litaudon, X., Lomas, P.J., McDonald, D.C., Na, Y.S., Pinches, S.D., Staebler, A., Tala, T., Tuccillo, A., Zastrow, K.-D., and Programme, JET-EFDA Contributors to the Work

Abstract

In 2003, the performance of the ‘hybrid’ regime was successfully validated in JET experiments up to βN = 2.8 at low toroidal field (1.7 T), with plasma triangularity and normalized Larmor radius (ρ*) corresponding to identical ASDEX Upgrade discharges. Stationary conditions have been achieved with the fusion figure of merit ( ) reaching 0.42 at q95 = 3.9. The JET discharges show similar MHD, edge and current profile behaviour, when compared with the ASDEX Upgrade. In addition, the JET experiments have extended the hybrid scenario operation at higher toroidal field of 2.4 T and lower ρ* towards the projected ITER values. Using this database, transport and confinement properties are characterized with respect to the standard H-mode regime. Moreover, trace tritium has been injected to assess the diffusion and convective coefficients of the fusion fuel. The maximization of confinement and stability properties provides, to this scenario, a good probability of achieving a high fusion gain at reduced plasma current for durations of up to 2000 s in ITER.

Published
2005

43. Confinement and stability in ASDEX discharges close to the beta limit

Author

Becker, G., Gierke, G.V., Keilhacker, M., Bernhardi, K., Ditte, U., Eberhagen, A., Fussmann, G., Gehre, O., Gernhardt, J., Glock, E., Gruber, O., Haas, G., Hesse, M., Janeschitz, G., Karger, F., Kerner, W., Klober, O., Kornherr, M., Lackner, K., Lisitano, G., Mayer, H.M., Mccormick, K., Meisel, D., Mertens, V., Moller, E.R., Murmann, H., Niedermeyer, H., Poschenrieder, W., Rapp, H., Ryter, F., Schneider, F., Siller, G., Smeulders, P., Söldner, F., Speth, E., Steuer, K.-H., and Vollmer, O.

Abstract

The highest ?-values derived from diamagnetic flux measurements in H-discharges are found to be close to the ?-limit due to kink and ideal ballooning modes. Both energy and particle confinement are degraded in these discharges and do not recover during the injection period. The energy confinement time decreases by a typical factor of two, the electron thermal diffusivity being correspondingly enhanced. Electron heat conduction is again found to be the dominant energy loss channel. The degradation of confinement close to the ideal-MHD limit suggests that kink and ballooning instabilities occur and are responsible for the enhanced transport. This conclusion is supported by the correlation with the pressure profile and by the result that global and local transport do not change in a reference discharge which is stable against ideal-MHD modes.

Published
1985
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44. Quasi-stationary pellet fuelled Ohmic discharges with medium density in ASDEX

Author

Vlases, G., Gruber, O., Kaufmann, M., Büchl, K., Haas, G., Jilge, W., Lang, R.S., Mertens, V., and Sandmann, W.

Abstract

Ohmically heated divertor discharges with gas fuelling and pellet fuelling without any gas puffing are compared. Central radiation prevents improvement of the density limit with this pellet injection mode. Strongly peaked density profiles are obtained, while the temperature profiles are only weakly broadened, compared with gas puffing. Transport analyses show that the deep penetration enhances convective energy transport, which is offset by reduced electron thermal conduction loss. The particle and energy transport can be described by the same .models for both fuelling modes. But only the electron thermal diffusivity, ?e, averaged over one pellet cycle, agrees with the scaling derived from steady state gas fuelled discharges, whereas a description in agreement with the 'temperature profile consistency' also depicts the time resolved ?eprofiles.

Published
1987
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45. Pellet injection with improved confinement in ASDEX

Author

Kaufmann, M., Büchl, K., Fussmann, G., Gehre, O., Grassie, K., Gruber, O., Haas, G., Janeschitz, G., Kornherr, M., Lackner, K., Lang, R.S., Mast, K.F., McCormick, K., Mertens, V., Neuhauser, J., Niedermeyer, H., Sandmann, W., Schneider, W., Zasche, D., Zehrfeld, H.-P., Pietrzyk, Z.A., and Vlases, G.

Abstract

Tokamak discharges with repetitive pellet fuelling were investigated in the ASDEX divertor device. The importance of sufficiently high divertor recycling for a high density at the separatrix and for successful density buildup in the bulk plasma was demonstrated. In contrast to low recycling discharges where no permanent improvement of the energy confinement time was achieved, in OH-heated discharges with high recycling an energy confinement time of 160 ms was reached, the normal value being 80 ms in the rollover region. The peaked density profiles in this case were accompanied by reduced or suppressed sawtooth activity and finally ended in a phase of strong central impurity accumulation. The particle transport was characterized by strong, non-classical inward drift, while the improved energy transport can be explained by the following alternatives: (la) a local model which assumes neo-Alcator ?efor the electrons and ?i= 3?neoclfor the ions in the gas puff cases, reducing to ?i= ?neoclfor the optimum pellet cases; (1b) the assumption ?i= ?neoclunder all conditions and an electron energy confinement worse than neo-Alcator in the rollover region in gas-puff-discharges; (2) a profile consistency picture where Te(a) determines the energy confinement. Low power, NI heated discharges with pellet fuelling behave like Ohmic discharges, while for high power in the L-mode no successful density buildup was possible, and ?Ewas not improved. The H-regime was extended from a density maximum e= 0.8 × 1020m-3without pellets to e= 1.2 × 1020m-3by the injection of pellets. In this case a density buildup takes place, but further density profile peaking could not be observed.

Published
1988
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46. Heating and confinement in the ion cyclotron range of frequencies on the divertor tokamak ASDEX

Author

Steinmetz, K., Niedermeyer, H., Noterdaeme, J.-M., Wagner, F., Wesner, F., Bäumler, J., Becker, G., Becker, W., Bosch, H.S., Brambilla, M., Braun, F., Bracken, H., Dodel, G., Eberhagen, A., Fritsch, R., Fussmann, G., Gehre, O., Gernhardt, J., von Gierke, G., Glock, E., Gruber, O., Haas, G., Hofmann, J., Hofmeister, F., Holzhauer, E., Izvozchikov, A.B., Janeschitz, G., Karger, F., Keilhacker, M., Kislyakov, A., Klüber, O., Kornherr, M., Kotze, P.B., Lackner, K., Lisitano, G., Van Mark, E., Mast, K.F., Mayer, H.-M., McCormick, K., Meisel, D., Mertens, V., Müller, E.R., Murmann, H.D., Neuhauser, J., Pietrzyk, Z.A., Poschenrieder, W., Puri, S., Rapp, H., Roth, J., Rudyj, A., Ryter, F., Schneider, F., Setzensack, C., Siller, G., Smeulders, P., Söll, M., Speth, E., Söldner, F.X., Stäbler, A., Steuer, K.-H., Vollmer, O., Wedler, H., and Zasche, D.

Abstract

The paper summarizes the experiments performed with ion cyclotron resonance heating (ICRH) on ASDEX, from November 1984 until March 1986; the most interesting results are reported and discussed in detail. Heating and confinement studies using the hydrogen second harmonic scheme and the hydrogen minority scheme (PIC< 2.6 MW, tIC< 1.5 s) show a typical L-mode behaviour, i.e. a power dependent confinement degradation, which is rather similar to that found with neutral beam injection (NBI) heating. ICRH is accompanied by a slightly improved particle and energy confinement compared with that of NBI; this is also true for a combined ICRH + NBI scheme, up to Ptot? 4.5 MW, absorbed in the plasma. Particular efforts have been devoted to investigations of the second harmonic regime in H/D plasmas with nH/ne? 0.1 - 1, with a view to heating mixtures in reactor relevant plasmas. The achievement of H-mode transitions with ICRH alone in the hydrogen minority scheme at an absorbed RF power of about 1.1 MW supports the assumption of common confinement properties in auxiliary heated tokamaks, since they appear to be widely independent of the additional heating method. ICRH specific impurity problems, such as the strong release of iron from the vessel walls, have been overcome by applying extensive in situ wall carbonization. The mechanisms responsible for impurity generation have partly been identified and analysed; however, the problem still remains to be solved. Impurities preferentially released from the ICRH antenna do not pose problems.

Published
1989
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47. ASDEX heat pulse propagation as a forced boundary value problem

Author

Riedel, K.S., Eberhagen, A., Gruber, O., Lackner, K., Becker, G., Gehre, O., Mertens, V., Neuhauser, J., and Wagner, F.

Abstract

The electron thermal conductivity ?eis calculated from the evolution of the heat pulse immediately after a sawtooth crash as a forced boundary problem. The electron cyclotron emission signal, measured just outside the sawtooth mixing radius, is used as the time dependent boundary condition. This method makes no assumptions about the plasma behaviour inside the mixing radius and permits the accurate determination of the radial dependence of ?e.

Published
1988
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48. Controlled Fusion and Plasma Physics Report on the 14th European Conference held in Madrid, Spain, 22-26 June 1987

Author

Behrisch, R., Gruber, O., Noterdaeme, J.-M., and Rau, F.

Abstract

The European Conference on Controlled Fusion and Plasma Physics, organized by the Plasma Physics Division of the European Physical Society, which, after having started three years ago, takes place annually in late spring, continues to reflect the major effort being put into developing controlled nuclear fusion in both eastern and western Europe. Major participation from the USA, Japan and Canada again emphasized the importance of this meeting. This year the conference was hosted by the Centro de Investigaciones Energéticas Medioambientales y Tecnológicas (CIEMAT), Spain, and took place in the Palacio de Congresos y Exposiciones de Madrid. It was attended by about 500 participants from 25 countries.

Published
1987
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49. Retention of gaseous and target produced impurities in the ASDEX divertor chamber

Author

Janeschitz, G., Fussmann, G., Kotzé, P.B., Mahdavi, A., Roth, J., Taglauer, E., Bartiromo, R., Becker, G., Bosch, H.S., Eberhagen, A., Gehre, O., Gernhardt, J., Von Gierke, G., Glock, E., Gruber, O., Haas, C., Karger, F., Keilhacker, M., Kislyakov, A., Klüber, O., Kornherr, M., Lenoci, M., Lisitano, G., Mayer, H.-M., McCormick, K., Meisel, D., Mertens, V., Müller, E.R., Murmann, H., Niedermeyer, H., Poschenrieder, W., Rapp, H., Ryter, F., Schneider, F., Siller, G., Smeulders, P., Söldner, F.X., Speth, E., Steinmetz, K., Steuer, K.-H., Vollmer, O., Wagner, F., and Wesner, F.

Abstract

This letter reports on two experiments undertaken to evaluate the retention of gaseous and target produced impurities in the ASDEX divertor. The retention for gaseous impurities was determined by puffing Ar into the main chamber and simulating the time behaviour of the Ar XVI line intensity with a time dependent impurity transport code including a simple divertor model. During Ohmic heating a factor of 3 and 4.5 enhancement of impurity retention if found relative to the vacuum time constant (90 ms) of the divertor chamber, for ne= 2 × 1013cm?3and ne= 3.5 × 1013cm?3, respectively, while a drastic breakdown of the retention occurs during high power NI heating. - To deduce the retention of impurities generated at the divertor plates, a segment (3.5%) of the plates was covered with copper, a metal previously not used in ASDEX. By measuring the Cu influx at the target plates and the line intensity of the Cu XX line (11.38 Å) in the core plasma and by using the transport code, it is found that during NI heating (ne? 2 × 1013cm?3) Cu atoms originating from the target plates have a ? 3.5 times higher probability to penetrate into the core plasma than if they had when originating from the main chamber walls.

Published
1986
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50. Stability of high-beta tokamak equilibria and transport in Belt-Pinch Ila

Author

Becker, G., Gruber, O., Krause, H., Mast, F., and Wilhelm, R.

Abstract

In Belt-Pinch IIa, highly elongated equilibria with poloidal beta values up to the aspect ratio have been achieved. In these tokamak-like configurations, no fast-growing MHD instabilities such as external kink and ballooning modes have been observed. Rigid displacement instabilities have been stabilized by an appropriate poloidal magnetic field configuration and by a conducting shell. By comparing simulation experiments using the Garching high-beta transport code with measurements, it has been found that in the collision-dominated plasma no anomalously enhanced transport occurs. Transport theory in the Pfirsch-Schlüter regime,which includes elongation and high-beta effects, has been confirmed by the experiment. In particular, it has been shown that the perpendicular electrical conductivity is also classical. Detailed investigations of oxygen and carbon impurity losses demonstrated that the impurity subprograms commonly used for tokamaks underestimate the radiation losses in the range Te= 10 to 30 eV.

Published
1978
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