Robust Iterative Learning Control for 2-D Linear Nonrepetitive Discrete Systems With Iteration-Dependent Trajectory by Kai Wan, Heng Xie, Qing-Yuan Xu

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Iterative Learning Consensus Tracking Control for Nonlinear Multi-Agent Systems With Randomly Varying Iteration Lengths by Jia-Qi Liang, Xu-Hui Bu, Qing-Feng Wang, Hui He

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ITER Council proceedings : April 1988 - August 1989 by International Atomic Energy Agency, International Thermonuclear Experimental Reactor

ITER Council proceedings : September 1989-May 1990/ by International Atomic Energy Agency, International Thermonuclear Experimental Reactor

Development of diagnostic beams for alpha particle measurement on ITER / by M. Sasao

Overview of the design of the ITER heating neutral beam injectors by R S Hemsworth, D Boilson, P Blatchford, M Dalla Palma, G Chitarin, H P L de Esch, F Geli, M Dremel, J Graceffa, D Marcuzzi, G Serianni, D Shah, M Singh, M Urbani, P Zaccaria

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ITER Fusion Device and Its Power Supply System by Xingguang HU, Zhiquan SONG, Ge GAO, Hua LI, Peng FU, Hang LI

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Engineering aspects of design and integration of ECE diagnostic in ITER by Udintsev V.S., Taylor G., Pandya H.K.B., Austin M.E., Casal N., Catalin R., Clough M., Cuquel B., Dapena M., Drevon J.-M., Feder R., Friconneau J.P., Giacomin T., Guirao J., Henderson M.A., Hughes S., Iglesias S., Johnson D., Kumar Siddhart, Kumar Vina, Levesy B., Loesser D., Messineo M., Penot C., Portalès M., Oosterbeek J.W., Sirinelli A, Vacas C., Vayakis G., Walsh M.J.

“…The integration of microwave diagnostics with other ITER systems is another challenging activity which is currently ongoing through port integration and in-vessel integration work. …”
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Design, qualification & manufacture of ITER gravity supports by P.Y. Lee, B.L. Hou, Z.C. Sun, D.A. Kang, S.L. Han, T. Zhang, D. Xu, T.F. Yan, B. Zhang

“…The first set of GS which has passed the ITER acceptance test is to be delivered to ITER construction site soon.…”
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ANALYSIS OF METALLIC MATERIALS FOR ITER WITH THE EMPHASIS ON COPPER ALLOYS by Tibor Kvačkaj, Róbert Bidulský, Andrea Kováčová, Jana Ileninová, Jana Bidulská

“…The production of electrical energy from nuclear fusions is currently highly advanced field of the interest in an international scientific cooperation in the International Thermonuclear Experimental Reactor programme (ITER). Alloys based on Cu are used in the ITER project however from the future perspective in terms of the physical and mechanical properties improvement, the alloy based on CuCrZr is proposed. …”
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Mechanical and Thermal Resistance of Multi-Material Components for ITER by Burlet Hélène

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Global distribution of tritium in JET with the ITER-like wall by S.E. Lee, Y. Hatano, M. Tokitani, S. Masuzaki, Y. Oya, T. Otsuka, N. Ashikawa, Y. Torikai, N. Asakura, H. Nakamura, K. Isobe, H. Kurotaki, D. Hamaguchi, T. Hayashi, A. Widdowson, S. Jachmich, J. Likonen, M. Rubel

“…Nondestructive analysis of tritium (T) distribution was performed by means of imaging plate technique on specimens cut from the Be limiters, W-coated carbon tiles and bulk W lamellae retrieved from the JET tokamak after the first and third experimental campaigns with the ITER-like wall. Afterwards, analyses were continued using X-ray photoelectron spectroscopy, microscopy techniques and thermal desorption spectroscopy. …”
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Design of Stray Radiation Sensor for ITER ECE Diagnostic by Danani S., Punia Sheetal, Kumar Ravinder, Pandya Hitesh Kumar B., Kumar Vinay

“…The Electron Cyclotron Emission (ECE) diagnostic has a primary role in the measurement of electron temperature profile and electron temperature fluctuations in ITER. This diagnostic shall be exposed to significant power due to unabsorbed Electron Cyclotron Heating (ECH) power in the plasma. …”
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Status of the ITER ECRH&CD control system development by Carannante Giuseppe, Cavinato Mario, Cindric Katarina, Ferrari Martino, Ferrò Giuseppe, Cabrita Neto Andre, Sartori Filippo

“…The ITER ECRH&CD system is designed to inject 20 MW of millimetre-wave at 170 GHz into the vacuum vessel. …”
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Preliminary risk assessment of in-vessel leakage accident in ITER by Qizhi Duan, Xingchen Fang, Shuai Chen, Hongyun Xie, Chunbing Wang, Dagui Wang

“…The success or failure of ITER will greatly affect the commercialization process of fusion energy. …”
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Plasma cleaning of steam ingressed ITER first mirrors by Kunal Soni, Lucas Moser, Roland Steiner, Daniel Mathys, Frederic Le Guern, Juan Piqueras, Laurent Marot, Ernst Meyer

“…In ITER, the first mirrors (FMs) are vulnerable to an in-vessel coolant leak which could severely diminish their optical properties. …”
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Magum iter pauperis ou O Peregrino mimético by Luiz Felipe Soares

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The interplay of controlling the power exhaust and the tungsten content in ITER by R. Dux, A. Loarte, C. Angioni, D. Coster, E. Fable, A. Kallenbach

“…Keywords: First wall, Tungsten, Erosion, ELM, Cross field transport, ITER…”
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An overview of the ITER electron cyclotron H&CD system by Henderson, M., Albajar, F., Alberti, S., Baruah, U., Bigelow, T., Becket, B., Bertizzolo, R., Bonicelli, T., Bruschi, A., Caughman, J., Chavan, R., Cirant, S., Collazos, A., Darbos, C., de Baar, M., Denisov, G., Farina, D., Gandini, F., Gassman, T., Goodman, T. P., Heidinger, R., Hogge, J. P., Jean, O., Kajiwara, K., Kasparek, W., Kasugai, A., Kern, S., Kobayashi, N., Landis, J. D., Moro, A., Nazare, C., Oda, J., Paganakis, I., Platania, P., Plaum, B., Poli, E., Porte, L., Pioscyzyk, B., Ramponi, G., Rao, S. L., Rasmussen, D., Ronden, D., Saibene, G., Sakamoto, K., Sanchez, F., Scherer, T., Shapiro, M., Sozzi, C., Spaeh, P., Straus, D., Sauter, O., Takahashi, K., Tanga, A., Thumm, M., Tran, M. Q., Zohm, H., Zucca, C., Temkin, Richard J

“…This paper reviews the design and functionality of the 24 MW 170 GHz electron cyclotron heating and current drive system being planned for the ITER Tokamak. The sub-systems (power supplies, gyrotrons, transmission lines and launcher antennas) are described based on present day technologies, while on-going R&D provides component and sub-system testing with the possibility of increasing the reliability of the overall EC system. …”
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Experimental vertical stability studies for ITER performance and design by Hutchinson, Ian H., Wolfe, Stephen M., Humphreys, D. A., Casper, T. A., Eidietis, N., Gates, D. A., Jackson, G. L., Kolemen, E., Leuer, J. A., Lister, J., LoDestro, L. L., Meyer, W. H., Pearlstein, L. D., Portone, A., Sartori, F., Walker, M. L., Welander, A. S., Ferrara, Marco, Ph. D. Massachusetts Institute of Technology

“…This kind of information is particularly critical for ITER vertical control, which poses the highest demands on poloidal field system performance, since the consequences of loss of vertical control can be severe. …”
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