Your search keyword '"Pompon, F."' showing total 2 results

1. Recent ASDEX Upgrade research in support of ITER and DEMO

Author

Zohm, H, Ahn, J, Aho Mantila, L, Äkäslompolo, S, Angioni, C, Asunta, O, de Baar, M, Balden, M, Barrera Orte, L, Behler, K, Belapure, J, Bergmann, A, Bernardo, J, Bernert, M, Beurskens, M, Biancalani, A, Bilato, R, Birkenmeier, G, Bobkov, V, Bock, A, Bogomolov, A, Bolzonella, T, Boom, J, Böswirth, B, Bottereau, C, Bottino, A, van den Brand, H, Braun, F, Brezinsek, S, Brochard, F, Buhler, A, Burckhart, A, Camenen, Y, Carvalho, P, Carrasco, G, Cazzaniga, C, Carralero, D, Casali, L, Cavedon, M, Challis, C, Chankin, A, Chapman, I, Clairet, F, Classen, I, Coda, S, Coelho, R, Coenen, J, Colas, L, Conway, G, Costea, S, Coster, D, CROCI, GABRIELE, Cseh, G, Czarnecka, A, Day, C, de Marné, P, Denner, P, D'Inca, R, Douai, D, Drube, R, Dunne, M, Duval, B, Dux, R, Eich, T, Elgeti, S, Engelhardt, K, Ertl, K, Esposito, B, Fable, E, Fantz, U, Faugel, H, Felici, F, Fietz, S, Figueredo, A, Fischer, R, Ford, O, Franzen, P, Frassinetti, L, Fröschle, M, Fuchert, G, Fünfgelder, H, Fuchs, J, Gál, K, Garavaglia, S, Garcia Muñoz, M, Geiger, B, Giannone, L, Giovannozzi, E, Gleason González, C, Görler, T, Goodman, T, GORINI, GIUSEPPE, da Graca, S, Gräter, A, Granucci, G, Greuner, H, Grießhammer, J, Groth, M, Gude, A, Günter, S, Guimarais, L, Haas, G, Hakola, A, Happel, T, Harrison, J, Hatch, D, Hauer, V, Hauff, T, Heinemann, B, Heinzel, S, Hellsten, T, Hennequin, P, Herrmann, A, Heyn, E, Hobirk, J, Hölzl, M, Höschen, T, Holm, J, Hopf, C, Hoppe, F, Horvath, L, Houben, A, Huber, A, Igochine, V, Ilkei, T, Jacob, W, Jacobsen, A, Jacquot, J, Janzer, M, Jaulmes, F, Jenko, F, Jensen, T, Joffrin, E, Käsemann, C, Kallenbach, A, Kálvin, S, Kantor, M, Kappatou, A, Kardaun, O, Karhunen, J, Kim, D, Kimmig, S, Kirk, A, J, Klingshirn, H, Kocan, M, Koch, F, Kocsis, G, Köhn, A, Köppen, M, Kötterl, J, Koslowski, R, Koubiti, M, Kraus, M, Krieger, K, Krivska, A, Kogut, D, Krämer Flecken, A, Kurki Suonio, T, Kurzan, B, Lackner, K, Laggner, F, Lang, P, Lauber, P, Lazányi, N, Lazaros, A, Lebschy, A, Leuterer, F, Liang, Y, Linsmeier, h, Lipschultz, B, Litnovski, A, Lohs, A, Luhmann, N, Lunt, T, Lyssoivan, A, Madsen, J, Maier, H, Maj, O, Mailloux, J, Maljaars, E, Mancini, A, Manhard, A, Mank, K, E, Manso, M, Mantica, P, Mantsinen, M, Manz, P, Maraschek, M, Markina, E, Martens, C, Martin, P, Mayer, A, Mayer, M, Mazon, D, McCarthy, P, McDermott, R, Meisl, G, Meister, H, Medvedeva, A, Merkel, P, Merkel, R, Mertens, V, Meyer, H, Meyer, O, Milanesio, D, Miettunen, J, Mlynek, A, Monaco, F, Moro, A, Moseev, D, Müller, H, Müller, S, Münich, M, Nabais, F, Nemes Czopf, A, Neu, G, Neu, R, Nielsen, A, Nikolaeva, V, Nielsen, S, NOCENTE, MASSIMO, Nold, B, M, Noterdaeme, J, Nowak, S, Oberkofler, M, Ochoukov, R, Odstrcil, T, Papp, G, Park, H, Pau, A, Pautasso, G, Penzel, F, Petersson, P, Piovesan, P, Piron, C, Plaum, B, Plöckl, B, Plyusnin, V, Podoba, Y, Pokol, G, Pompon, F, Poli, E, Polozhiy, K, Porte, L, Potzel, S, Preuss, R, Prisiazhniuk, D, Pütterich, T, Ramish, M, Rapson, C, Rasmussen, J, Rathgeber, S, Raupp, G, Réfy, D, Reich, M, Reimold, F, Reinke, M, Ribeiro, T, Riedl, R, Rittich, D, Rocchi, G, Rodriguez Ramos, M, Rohde, V, Roth, J, Rott, M, Rubel, M, Ryter, F, Saarelma, S, Salewski, M, Salmi, A, Sanchis Sanchez, L, Santos, G, Santos, J, Sauter, O, Scarabosio, A, Schall, G, Schmid, K, Schmitz, O, Schneider, P, Schneider, W, Schneller, M, Schrittwieser, R, Schubert, M, Schwarz Selinger, T, Schweinzer, J, Scott, B, Sehmer, T, Sertoli, M, Shalpegin, A, Sias, G, Siccinio, M, Sieglin, B, Sigalov, A, Silva, A, Silva, C, Simon, P, Simpson, J, Snicker, A, Sommer, F, Sozzi, C, Spolaore, M, Stejner, M, Stober, J, Stobbe, F, Stroth, U, Strumberger, E, Sugiyama, K, J, Sun, Suttrop, W, Szepesi, T, Tál, B, Tala, T, Tardini, G, Tichmann, C, Told, D, Tophøj, L, Tudisco, O, von Toussaint, U, Trevisan, G, Treutterer, W, Tripský, M, Valisa, M, Valovic, M, Varela, P, Varoutis, S, Vezinet, D, Vianello, N, Vicente, J, Vierle, T, Viezzer, E, Vorpahl, C, Wagner, D, Wang, X, Wauters, T, Weidl, I, Weiland, M, Weller, A, Wenninger, R, Wieland, B, Wiesinger, M, Willensdorfer, M, Wiringer, B, Wischmeier, M, Wolf, R, Wolfrum, E, Wünderlich, D, Würsching, E, Yang, Z, Yu, Q, Zammuto, I, Zarzoso, D, Zasche, D, van Zeeland, M, Zehetbauer, T, Zilker, M., Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, European Commission (EC), Science and Technology of Nuclear Fusion, Zohm, H, Ahn, J, Aho Mantila, L, Äkäslompolo, S, Angioni, C, Asunta, O, de Baar, M, Balden, M, Barrera Orte, L, Behler, K, Belapure, J, Bergmann, A, Bernardo, J, Bernert, M, Beurskens, M, Biancalani, A, Bilato, R, Birkenmeier, G, Bobkov, V, Bock, A, Bogomolov, A, Bolzonella, T, Boom, J, Böswirth, B, Bottereau, C, Bottino, A, van den Brand, H, Braun, F, Brezinsek, S, Brochard, F, Buhler, A, Burckhart, A, Camenen, Y, Carvalho, P, Carrasco, G, Cazzaniga, C, Carralero, D, Casali, L, Cavedon, M, Challis, C, Chankin, A, Chapman, I, Clairet, F, Classen, I, Coda, S, Coelho, R, Coenen, J, Colas, L, Conway, G, Costea, S, Coster, D, Croci, G, Cseh, G, Czarnecka, A, Day, C, de Marné, P, Denner, P, D'Inca, R, Douai, D, Drube, R, Dunne, M, Duval, B, Dux, R, Eich, T, Elgeti, S, Engelhardt, K, Ertl, K, Esposito, B, Fable, E, Fantz, U, Faugel, H, Felici, F, Fietz, S, Figueredo, A, Fischer, R, Ford, O, Franzen, P, Frassinetti, L, Fröschle, M, Fuchert, G, Fünfgelder, H, Fuchs, J, Gál, K, Garavaglia, S, Garcia Muñoz, M, Geiger, B, Giannone, L, Giovannozzi, E, Gleason González, C, Görler, T, Goodman, T, Gorini, G, da Graca, S, Gräter, A, Granucci, G, Greuner, H, Grießhammer, J, Groth, M, Gude, A, Günter, S, Guimarais, L, Haas, G, Hakola, A, Happel, T, Harrison, J, Hatch, D, Hauer, V, Hauff, T, Heinemann, B, Heinzel, S, Hellsten, T, Hennequin, P, Herrmann, A, Heyn, E, Hobirk, J, Hölzl, M, Höschen, T, Holm, J, Hopf, C, Hoppe, F, Horvath, L, Houben, A, Huber, A, Igochine, V, Ilkei, T, Jacob, W, Jacobsen, A, Jacquot, J, Janzer, M, Jaulmes, F, Jenko, F, Jensen, T, Joffrin, E, Käsemann, C, Kallenbach, A, Kálvin, S, Kantor, M, Kappatou, A, Kardaun, O, Karhunen, J, Kim, D, Kimmig, S, Kirk, A, J, K, H, Kocan, M, Koch, F, Kocsis, G, Köhn, A, Köppen, M, Kötterl, J, Koslowski, R, Koubiti, M, Kraus, M, Krieger, K, Krivska, A, Kogut, D, Krämer Flecken, A, Kurki Suonio, T, Kurzan, B, Lackner, K, Laggner, F, Lang, P, Lauber, P, Lazányi, N, Lazaros, A, Lebschy, A, Leuterer, F, Liang, Y, Linsmeier, H, Lipschultz, B, Litnovski, A, Lohs, A, Luhmann, N, Lunt, T, Lyssoivan, A, Madsen, J, Maier, H, Maj, O, Mailloux, J, Maljaars, E, Mancini, A, Manhard, A, Mank, K, E, M, M, Mantica, P, Mantsinen, M, Manz, P, Maraschek, M, Markina, E, Martens, C, Martin, P, Mayer, A, Mayer, M, Mazon, D, Mccarthy, P, Mcdermott, R, Meisl, G, Meister, H, Medvedeva, A, Merkel, P, Merkel, R, Mertens, V, Meyer, H, Meyer, O, Milanesio, D, Miettunen, J, Mlynek, A, Monaco, F, Moro, A, Moseev, D, Müller, H, Müller, S, Münich, M, Nabais, F, Nemes Czopf, A, Neu, G, Neu, R, Nielsen, A, Nikolaeva, V, Nielsen, S, Nocente, M, Nold, B, M, N, J, Nowak, S, Oberkofler, M, Ochoukov, R, Odstrcil, T, Papp, G, Park, H, Pau, A, Pautasso, G, Penzel, F, Petersson, P, Piovesan, P, Piron, C, Plaum, B, Plöckl, B, Plyusnin, V, Podoba, Y, Pokol, G, Pompon, F, Poli, E, Polozhiy, K, Porte, L, Potzel, S, Preuss, R, Prisiazhniuk, D, Pütterich, T, Ramish, M, Rapson, C, Rasmussen, J, Rathgeber, S, Raupp, G, Réfy, D, Reich, M, Reimold, F, Reinke, M, Ribeiro, T, Riedl, R, Rittich, D, Rocchi, G, Rodriguez Ramos, M, Rohde, V, Roth, J, Rott, M, Rubel, M, Ryter, F, Saarelma, S, Salewski, M, Salmi, A, Sanchis Sanchez, L, Santos, G, Santos, J, Sauter, O, Scarabosio, A, Schall, G, Schmid, K, Schmitz, O, Schneider, P, Schneider, W, Schneller, M, Schrittwieser, R, Schubert, M, Schwarz Selinger, T, Schweinzer, J, Scott, B, Sehmer, T, Sertoli, M, Shalpegin, A, Sias, G, Siccinio, M, Sieglin, B, Sigalov, A, Silva, A, Silva, C, Simon, P, Simpson, J, Snicker, A, Sommer, F, Sozzi, C, Spolaore, M, Stejner, M, Stober, J, Stobbe, F, Stroth, U, Strumberger, E, Sugiyama, K, J, S, Suttrop, W, Szepesi, T, Tál, B, Tala, T, Tardini, G, Tichmann, C, Told, D, Tophøj, L, Tudisco, O, von Toussaint, U, Trevisan, G, Treutterer, W, Tripský, M, Valisa, M, Valovic, M, Varela, P, Varoutis, S, Vezinet, D, Vianello, N, Vicente, J, Vierle, T, Viezzer, E, Vorpahl, C, Wagner, D, Wang, X, Wauters, T, Weidl, I, Weiland, M, Weller, A, Wenninger, R, Wieland, B, Wiesinger, M, Willensdorfer, M, Wiringer, B, Wischmeier, M, Wolf, R, Wolfrum, E, Wünderlich, D, Würsching, E, Yang, Z, Yu, Q, Zammuto, I, Zarzoso, D, Zasche, D, van Zeeland, M, Zehetbauer, T, Zilker, M, Max-Planck-Institut für Plasmaphysik [Garching] (IPP), Physique des interactions ioniques et moléculaires (PIIM), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), ASDEX Upgrade Team, Max Planck Institute for Plasma Physics, Max Planck Society, and EUROfusion MST1 Team

Subjects

Nuclear and High Energy Physics, Tokamak, Cyclotron, Condensed Matter Physic, Collisionality, 01 natural sciences, Resonant magnetic perturbations, Electron cyclotron resonance, 010305 fluids & plasmas, law.invention, Nuclear physics, ASDEX Upgrade, [PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph], law, ITER, 0103 physical sciences, 010306 general physics, Edge-localized mode, tokamak physic, DEMO, nuclear fusion, Physics, Divertor, Condensed Matter Physics, Tokamak physics, Nuclear fusion, tokamak physics

Abstract

Recent experiments on the ASDEX Upgrade tokamak aim at improving the physics base for ITER and DEMO to aid the machine design and prepare efficient operation. Type I edge localized mode (ELM) mitigation using resonant magnetic perturbations (RMPs) has been shown at low pedestal collisionality ( ν ∗ ped < 0 . 4 ) . In contrast to the previous high ν ∗ regime, suppression only occurs in a narrow RMP spectral window, indicating a resonant process, and a concomitant confinement drop is observed due to a reduction of pedestal top density and electron temperature. Strong evidence is found for the ion heat flux to be the decisive element for the L–H power threshold. A physics based scaling of the density at which the minimum P LH occurs indicates that ITER could take advantage of it to initiate H-mode at lower density than that of the final Q = 10 operational point. Core density fluctuation measurements resolved in radius and wave number show that an increase of R/L T e introduced by off-axis electron cyclotron resonance heating (ECRH) mainly increases the large scale fluctuations. The radial variation of the fluctuation level is in agreement with simulations using the GENE code. Fast particles are shown to undergo classical slowing down in the absence of large scale magnetohydrodynamic (MHD) events and for low heating power, but show signs of anomalous radial redistribution at large heating power, consistent with a broadened off-axis neutral beam current drive current profile under these conditions. Neoclassical tearing mode (NTM) suppression experiments using electron cyclotron current drive (ECCD) with feedback controlled deposition have allowed to test several control strategies for ITER, including automated control of (3,2) and (2,1) NTMs during a single discharge. Disruption mitigation studies using massive gas injection (MGI) can show an increased fuelling efficiency with high field side injection, but a saturation of the fuelling efficiency is observed at high injected mass as needed for runaway electron suppression. Large locked modes can significantly decrease the fuelling efficiency and increase the asymmetry of radiated power during MGI mitigation. Concerning power exhaust, the partially detached ITER divertor scenario has been demonstrated at P sep /R = 10 MW m − 1 in ASDEX Upgrade, with a peak time averaged target load around 5MWm − 2 , well consistent with the component limits for ITER. Developing this towards DEMO, full detachment was achieved at P sep /R = 7MWm − 1 and stationary discharges with core radiation fraction of the order of DEMO requirements (70% instead of the 30% needed for ITER) were demonstrated. Finally, it remains difficult to establish the standard ITER Q = 10 scenario at low q 95 = 3 in the all-tungsten (all-W) ASDEX Upgrade due to the observed poor confinement at low β N . This is mainly due to a degraded pedestal performance and hence investigations at shifting the operational point to higher β N by lowering the current have been started. At higher q 95 , pedestal performance can be recovered by seeding N 2 as well as CD 4 , which is interpreted as improved pedestal stability due to the decrease of bootstrap current with increasing Z eff . Concerning advanced scenarios, the upgrade of ECRH power has allowed experiments with central ctr-ECCD to modify the q -profile in improved H-mode scenarios, showing an increase in confinement at still good MHD stability with flat elevated q -profiles at values between 1.5 and 2. European Commission (EUROfusion 633053)

Published

2015

2. Lifetime Prolongation of ICRF Generators, Theoretical and Conceptual Aspects.

Author

Pompon, F., Fuenfgelder, H., and Faugel, H.

Subjects

*ION cyclotron resonance spectrometry, *PLASMA generators, *PHYSICS experiments, *ELECTRONIC amplifiers, *ENERGY dissipation, *NUCLEAR physics

Abstract

Two ICRF generators, previously used for ASDEX and W7-AS, have been designed almost 30 years ago [1], based on technology and components available at that time. Four, more recent generators used by ASDEX Upgrade, are an evolutionary development. Today, two out of three tetrodes used in the amplifier line up are obsolete and spares are becoming scarce. Based on the long experience gained with the initial configuration, a redesign process has been started aiming to significantly prolong lifetime of the generators. Each of the four amplification stages required to reach 2 MW output power is undergoing a more or less severe modification. The most critical change concerns the final amplification stage and has already been successfully implemented [2], whereas changes of the remaining stages are on-going. A new, FET based first stage, provides a higher output power in order to drive the following (pre-driver) stage where a triode is replacing the initial tetrode. The tube of the third (driver) stage is upgraded to a higher power dissipation capability, to increase the drive power for the fourth (final) stage. One of the two generators formerly used for ASDEX and W7-AS has been modified along those lines. [ABSTRACT FROM AUTHOR]

Published

2011