Results 181 to 190 of about 311,028 (224)
ASDEX - UG. ASDEX Upgrade Project Proposal. Phase II
, 1983 ASDEX Upgrade Project Team, Köppendörfer, W., Blaumoser, M., Gruber, O., Gruber, J., Jandl, O., Kluger, M., Kollotzek, H., Kotzlowski, H., Krause, H., Lackner, F., Lackner, E., Martin, Neuhauser, J., Pillsticker, M., Preis, H., Röhr, H., Ryll, Schneider, W., Seidel, U., Springmann, E., Streibl, B., Vernickel, H., Werner, F., Wunderlich, R., Brambilla, M., Croci, R., Parmeyer, Haubenberger, W. D., Kottmair, M., Kutsch, H.-J., Mahl, Poschenrieder, W. P., Söll, M., Wesner, F., Kaleck, A., Salzmann, Wilhelm, Braams +38 moreopenaire +3 more sourcesOverview of ASDEX Upgrade Results
, 1999 Gruber, O., Bosch, H., Guenter, S., Herrmann, A., Kallenbach, A., Kaufmann, M., Krieger, K., Lackner, K., Mertens, V., Neu, R., Ryter, F., Schweinzer, J., Staebler, A., Suttrop, W., Wolf, R., Asmussen, K., Bard, A., Becker, G., Behler, K. ; https://orcid.org/0000-0003-2845-8024, Behringer, K., Bergmann, A., Bessenrodt-Weberpals, M., Borrass, K., Braams, B., Brambilla, M., Brandenburg, R., Braun, F., Brinkschulte, H., Brueckner, R., Bruesehaber, B., Buechl, K., Buhler, A., Callaghan, H., Carlson, A., Coster, D., Pena Hempel, S., Dorn, C., Drube, R., Dux, R., Egorov, S., Engelhardt, W., Fahrbach, H., Fantz, U., Feist, H., Franzen, P., Fuchs, J., Fussmann, G., Gafert, J., Gantenbein, G., Gehre, O., Geier, A., Gernhardt, J., Gubanka, E., Gude, A., Haas, G., Hallatschek, K., Hartmann, D., Heinemann, B., Herppich, G., Herrmann, W., Hofmeister, F., Holzhauer, E., Jacobi, D., Kakoulidis, M., Karakatsanis, N., Kardaun, O., Khutoretski, A., Kollotzek, H., Koetterl, S., Kraus, W., Kurzan, B., Kyriakakis, G., Lang, P., Lang, R., Laux, M., Lengyel, L., Leuterer, F., Lorenz, A., Maier, H., Manso, M., Maraschek, M., Markoulaki, M., Mast, K., McCarthy, P., Meisel, D., Meister, H., Merkel, R., Meskat, J., Mueller, H., Muenich, M., Murmann, H., Napiontek, B., Neu, G., Neuhauser, J., Niethammer, M., Noterdaeme, J., Pautasso, G., Peeters, A., Pereverzew, G., Pinches, S., Raupp, G., Reinmüller, K., Riedl, R., Rohde, V., Roehr, H., Roth, J., Salzmann, H., Sandmann, W., Schilling, H., Schloegl, D., Schmidtmann, K., Schneider, H., Schneider, R., Schneider, W., Schramm, G., Schweizer, S., Schwoerer, R., Scott, B., Seidel, U., Serra, F., Sesnic, S., Sihler, C., Silva, A., Speth, E., Steuer, K., Stober, J., Streibl, B., Thoma, A., Treutterer, W., Troppmann, M., Tsois, N., Ullrich, W., Ulrich, M., Varela, P., Verbeek, H., Vollmer, O., Wedler, H., Weinlich, M., Wenzel, U., Wesner, F., Wunderlich, R., Xantopoulosa, N., Yu, Q., Zasche, D. +143 moreopenaire +1 more sourceUpgrade of the MSE diagnostic at ASDEX Upgrade
, 2017 Reich, M., Bock, A. ; https://orcid.org/0000-0002-3995-8596, Burckhart, A., Ford, O., Rittich, D. +4 moreopenaire +1 more sourceSome of the next articles are maybe not open access.Related searches:
Design of the shattered pellet injection system for ASDEX Upgrade.
Review of Scientific Instruments, 2023 A new shattered pellet injection system was designed and built to perform disruption mitigation experiments on ASDEX Upgrade. The system can inject pellets with diameters of 1, 2, 4, or 8 mm with variable lengths over a range of L/D ratios of ∼0.5-1.5 ...M. Dibon, P. de Marne, G. Papp, I. Vinyar, A. Lukin, S. Jachmich, U. Kruezi, A. Muir, V. Rohde, M. Lehnen, P. Heinrich, T. Peherstorfer, D. Podymskii +12 moresemanticscholar +1 more sourceHigh-heat flux ball-pen probe head in ASDEX-Upgrade.
Review of Scientific Instruments, 2022 A new high heat flux ball-pen probe head installed on the midplane manipulator is currently being used in ASDEX-Upgrade (AUG). The probe was designed to withstand high heat fluxes making possible the investigation of the plasma edge under harsh ...G. Grenfell, J. Adamek, M. Komm, D. Brida, G. Conway, P. Manz, P. Tolias, T. Eich, D. Sestak, A. Herrmann, T. Nishizawa, U. Stroth +11 moresemanticscholar +1 more sourceECRH experiments in ASDEX upgrade
Fusion Engineering and Design, 2001 Abstract Modulated Electron Cyclotron Resonance Heating was applied in ASDEX Upgrade to study the electron heat diffusivity χ e . Its dependence on the isotope mass was found to be opposite to that one known from the power balance analysis. Off-axis ECRH deposition leads to a reduced electron heat transport in the centre which cannot be explained ...Leuterer, F., Gantenbein, G., Günter, S., Hobirk, J., Kirov, K., Ryter, F., Wolf, R., Zohm, H. ; https://orcid.org/0000-0002-8870-7806 +7 moreopenaire +2 more sourcesArcing in ASDEX-Upgrade
Contributions to Plasma Physics, 1994 AbstractArc traces and luminous phenomena at the divertor tiles of ASDEX‐Upgrade were recorded, and experimentally modelled by artificially ignited arcs. At the graphite surfaces the arcs produced relatively immobile spots that were uniformly distributed in toroidal direction.Juttner, B., Büchl, K., Weinlich, M.openaire +3 more sourcesStudy of runaway electron dynamics at the ASDEX Upgrade tokamak during impurity injection using fast hard x-ray spectrometry
Nuclear Fusion, 2021 To study the runaway electron (RE) dynamics during plasma discharge and develop scenarios for disruption mitigation, a hard x-ray (HXR) spectrometric system has been developed and commissioned at the ASDEX Upgrade tokamak (AUG).A. Shevelev, E. Khilkevitch, M. Iliasova, M. Nocente, G. Pautasso, G. Papp, A. Molin, S. Pandya, V. Plyusnin, L. Giacomelli, G. Gorini, E. Panontin, D. Rigamonti, M. Tardocchi, G. Tardini, A. Patel, A. Bogdanov, I. Chugunov, D. Doinikov, V. Naidenov, I. Polunovsky, the ASDEX Upgrade team, the Eurofusion MST1 Team +22 moresemanticscholar +1 more source
