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2. New modelling capabilities to support the ITER EC H&CD System optimisation and preparation of plasma operation

Author

Preynas Melanie, Schneider Mireille, Arroyo Jose Manuel, Beaumont Florent, Casal Natalia, Choe Munseok, Carannante Giuseppe, Gandini Franco, Henderson Mark A., Omori Toshimichi, and Pascal Sandrine

Subjects
Physics, QC1-999
Abstract

The ITER Electron Cyclotron Resonance Heating (ECRH) & Current Drive (ECCD) system is planned to be progressively installed and commissioned following the four stage approach of the ITER Research Plan. Starting with an injection of up to 5.8 MW from one Upper Launcher (UL) in the vacuum vessel to assist the plasma breakdown during First Plasma (FP) operation, the system will then be extended to achieve a capability of 20 MW injected power in Pre-Fusion Plasma Operation (PFPO) and Fusion Power Operation (FPO) phases. Development of optical modelling was required to characterize the optical performance of the FP configuration with the so-called First Plasma Protection Components. An optical 3D model using Zemax OpticStudio® has been developed and extended to the UL. Effects of higher order modes, thermal deformations and tolerances on the UL functionality have been characterized and are presented. Finally, in preparation of plasma operation and in the frame of the EC system upgrade layout optimisation, ECRH-ECCD modelling is being undertaken within the ITER Integrated Modelling and Analysis (IMAS) suite.

Published
2023
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3. ITER ECH&CD Control System: Architecture, interfaces and status of development

Author

Carannante Giuseppe, Cavinato Mario, Cindric Katarina, De Vries Peter, Felici Federico, Ferrari Martino Giordano, Ferrò Giuseppe, Henderson Mark, Neto André, Preynas Melanie, Reich Matthias, Sartori Filippo, and Zabeo Luca

Subjects
Physics, QC1-999
Abstract

The ITER ECH&CD system is designed to inject 20 MW of millimetre-wave at 170 GHz into the vacuum vessel. The system is composed of many sub-systems, namely High-Voltage Power Supplies (HVPS), Gyrotrons, Transmission Lines (TL), Ex-vessel Waveguides (EW), Launchers. It is the role of the EC Plant Controller (ECPC) to integrate all the Sub-system Control Units (SCU), to prepare the system for operation and to execute the real-time requests coming from the plasma control system. The ECPC also implements plant level protection functions involving more than one sub-system and it interfaces with the ITER Central I&C. This paper gives an overview of the EC system and a description of the control system development focusing on the architecture and the interfaces. Control and protection functions are presented together with a functional allocation to better define interfaces and responsibilities. The preliminary design of the interface with the Plasma Control System to implement advanced control functions is also presented.

Published
2023
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4. Status of the ITER ECRH&CD control system development

Author

Carannante Giuseppe, Cavinato Mario, Cindric Katarina, Ferrari Martino, Ferrò Giuseppe, Cabrita Neto Andre, and Sartori Filippo

Subjects
Physics, QC1-999
Abstract

The ITER ECRH&CD system is designed to inject 20 MW of millimetre-wave at 170 GHz into the vacuum vessel. The system is composed of many sub-systems, namely High-Voltage Power Supplies (HVPS), Gyrotrons, Transmission Lines (TL), Ex-vessel Waveguides (EW), Launchers. It is the role of the EC Plant Controller (ECPC) to integrate all the Sub-system Control Units (SCU), to prepare the system for operation and to execute the real-time requests coming from the plasma control system. Plant level protections are also implemented by the ECPC, in charge of ensuring the safe operation of the plant, while optimizing the power availability. While control and protection functions are always pushed to the lower possible controller able to implement them, the operational requirements and flexibility of the system make it impossible to fully segregate many functions, since each gyrotron is connected to at least two different launching mirrors. To simplify the SCUs’ development and to respect the responsibility boundaries imposed by the procurement strategy, all the functions involving more than one sub-system are implemented in the ECPC, which exposes a single operational interface towards the ITER Central I&C. The status of the control system development is presented in this work.

Published
2023
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5. Input-Output Finite-Time Stability

Author

De Tommasi, Gianmaria, Ambrosino, Roberto, Carannante, Giuseppe, Cosentino, Carlo, Pironti, Alfredo, and Amato, Francesco

Subjects
Computer Science - Systems and Control, Mathematics - Optimization and Control
Abstract

This paper introduces the extension of Finite-Time Stability (FTS) to the input-output case, namely the Input-Output FTS (IO-FTS). The main differences between classic IO stability and IO-FTS are that the latter involves signals defined over a finite time interval, does not necessarily require the inputs and outputs to belong to the same class of signals, and that quantitative bounds on both inputs and outputs must be specified. This paper revises some recent results on IO-FTS, both in the context of linear systems and in the context of switching systems. In the final example the proposed methodology is used to minimize the maximum displacement and velocity of a building subject to an earthquake of given magnitude., Comment: 14 pages, 9 figures, 2 tables. This paper has been accepted for presentation at AUTOMATICA.IT, Convegno Annuale dei Docenti e Ricercatori Italiani in Automatica, Pisa, Italy, September 2011

Published
2011

9. Progress in the ITER electron cyclotron heating and current drive system design

Author

Omori, Toshimichi, Albajar, Ferran, Bonicelli, Tullio, Carannante, Giuseppe, Cavinato, Mario, Cismondi, Fabio, Darbos, Caroline, Denisov, Grigory, Farina, Daniela, Gagliardi, Mario, Gandini, Franco, Gassmann, Thibault, Goodman, Timothy, Hanson, Gregory, Henderson, Mark A., Kajiwara, Ken, McElhaney, Karen, Nousiainen, Risto, Oda, Yasuhisa, Oustinov, Alexander, Parmar, Darshankumar, Popov, Vladimir L., Purohit, Dharmesh, Rao, Shambhu Laxmikanth, Rasmussen, David, Rathod, Vipal, Ronden, Dennis M.S., Saibene, Gabriella, Sakamoto, Keishi, Sartori, Filippo, Scherer, Theo, Singh, Narinder Pal, Strauß, Dirk, and Takahashi, Koji

Published
2015
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10. Multiloculated Hydrocephalus

Author

Spennato, Pietro, Cinalli, Giuseppe, Carannante, Giuseppe, Ruggiero, Claudio, Del Basso de Caro, Maria Laura, Cinalli, Giuseppe, editor, Sainte-Rose, Christian, editor, and Maixner, Wirginia June, editor

Published
2005
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11. Status of the ITER Electron Cyclotron Heating and Current Drive System

Author

Darbos, Caroline, Albajar, Ferran, Bonicelli, Tullio, Carannante, Giuseppe, Cavinato, Mario, Cismondi, Fabio, Denisov, Grigory, Farina, Daniela, Gagliardi, Mario, Gandini, Franco, Gassmann, Thibault, Goodman, Timothy, Hanson, Gregory, Henderson, Mark A., Kajiwara, Ken, McElhaney, Karen, Nousiainen, Risto, Oda, Yasuhisa, Omori, Toshimichi, Oustinov, Alexander, Parmar, Darshankumar, Popov, Vladimir L., Purohit, Dharmesh, Rao, Shambhu Laxmikanth, Rasmussen, David, Rathod, Vipal, Ronden, Dennis M. S., Saibene, Gabriella, Sakamoto, Keishi, Sartori, Filippo, Scherer, Theo, Singh, Narinder Pal, Strauß, Dirk, and Takahashi, Koji

Published
2016
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12. MINT, an ITER Tool for Interactive Visualization of Data

Author

Abadie, Lana, Carannante, Giuseppe, Kalsi, Sukhmeet Singh, Makowski, Dariusz, Mazur, Piotr, Neto, Andre, Nunes, Isabel, Panchumarti, Jaswant, Perek, Piotr, Pinches, Simon, Simrock, Stefan, and Tsalas, Maximos

Subjects
User Interfaces and User eXperience (UX), Accelerator Physics
Abstract

ITER will produce large volumes of data that need to be visualized and analyzed. This paper describes the development of a graphical data visualization and exploration tool, MINT (Make Informative and Nice Trends), for plant engineers, operators and physicists. It describes the early development phase from requirements capture to first release covering the mistakes, lessons learnt and future steps. The requirements were collected by interviewing the various stakeholders. The initial neglect of the architecture and user-friendliness turned out to be key points when developing such a tool for a project with a long lifetime like ITER. Modular architecture and clear definition of generic interfaces (abstraction layer) is crucial for such a long lifetime project and makes it ready for future adaptations to new plotting, processing and GUI libraries. The MINT application is based upon the development of an independent plotting library, which acts as a wrapper to the underlying graphical library. This allows scientists and engineers to develop their own specific tools, which are immune to changes of graphical library. The development based on Python uses Qt5 as the visual backend., Proceedings of the 18th International Conference on Accelerator and Large Experimental Physics Control Systems, ICALEPCS2021, Shanghai, China

Published
2022
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13. Finite-time control of switching linear systems: The uncertain resetting times case

Author

F. Amato, CARANNANTE, GIUSEPPE, DE TOMMASI, GIANMARIA, PIRONTI, ALFREDO, Amato, F., Carannante, Giuseppe, DE TOMMASI, Gianmaria, and Pironti, Alfredo

Abstract

In recent years, a number of papers have treated the problem of the finite-time stability and stabilization of impulsive (or, more in general, switching) dynamical linear systems. Generally, these works assume that the sequence of switching (in the following resetting) times is a priori known. In this paper, we remove such (strong) assumption, so making the technique more appealing from the practical control engineering point of view. A first result provided in this work is a sufficient condition for finite-time stability when the resetting times are known with a certain degree of uncertainty. Such condition requires the solution of a suitable feasibility problem based on coupled difference/differential LMIs. We show that as the uncertainty intervals reduce in size, our condition becomes less conservative, becoming necessary and sufficient in the certain case (i.e., the resetting instants are perfectly known). Eventually, we consider the conceptually different situation in which the resetting times are totally unknown, namely, the arbitrary switching case. The analysis results are then used to derive sufficient conditions for the existence of state-feedback controllers that finite time stabilizes the closed-loop system in the three cases mentioned earlier. A nontrivial example, considering the finite-time control of the liquid levels into three interconnected reservoirs, shows the effectiveness of the proposed approach.

Published
2015

14. Necessary and sufficient conditions for stability on finite time horizon

Author

Carannante, Giuseppe

Abstract

Control theory is often interested in studying stability and stabilization of dynamical systems in an infinite time horizon. However, in many practical situations, focusing on the system behavior in a finite time interval is more important than requiring the system to reach a given equilibrium. Analysis on finite time horizon can be useful, for example, to study state and output transients due to disturbances or to examine the effects of sudden changes of the state variable due to external or internal system perturbations. Moreover, some systems naturally evolve in a finite time interval, as for example earthquakes or animal and vegetal systems. Furthermore, only qualitative behavior of dynamical systems are usually taken into account, as in Lyapunov Asymptotic Stability and classic Input-Output Lp-Stability. In many applications though, it is necessary to provide specific bounds to the system state and/or output variables. When dealing with linear models obtained linearizing nonlinear systems around an equilibrium, for example, it is important to keep the state trajectory close to the equilibrium point to avoid the effects of nonlinearity; the presence of variables physical constraints, like actuators saturations, is another example. Two different concepts of stability over a finite time horizon are dealt with in this thesis, namely Finite-Time Stability (FTS) and Input-Output Finite-Time Stability (IO-FTS). Their aim is to provide quantitative bounds, during a finite time interval, on the state and output trajectories, respectively. These quantitative bounds can be very useful for hybrid systems, e.g. Switching Linear Systems (SLSs), which present jumps in the state space in particular instants of time called resetting times. Hybrid systems exhibit both continuous-time and discrete-time dynamics and are used to model systems such as a thermostat turning the heat on and off, a server switching between buffers in a queueing networks, the gear shift control in a car. This thesis extends the FTS results already present in the previous literature, i.e. necessary and sufficient condition to check finite-time stability, to a larger class of hybrid systems, namely SLS. It also copes with the very useful case of uncertainty on the resetting times. In the context of IO-FTS, this thesis provides necessary and sufficient conditions to check the stability of Linear Time Varying (LTV) systems and sufficient conditions to check the stability of SLSs, also in the case of resetting times not a priori known. For both FTS and IO-FTS, dfferent stabilization problems are solved for SLSs and LTV systems. The new concept of Structured IO-FTS is introduced, which makes possible to limit the effort on the actuators by introducing quantitative bounds on the control inputs. Some applications are considered to demonstrate the effectiveness of the developed control techniques.

Published
2013

15. Status of the ITER Electron Cyclotron Heating and Current Drive System

Author

Darbos, Caroline, primary, Albajar, Ferran, additional, Bonicelli, Tullio, additional, Carannante, Giuseppe, additional, Cavinato, Mario, additional, Cismondi, Fabio, additional, Denisov, Grigory, additional, Farina, Daniela, additional, Gagliardi, Mario, additional, Gandini, Franco, additional, Gassmann, Thibault, additional, Goodman, Timothy, additional, Hanson, Gregory, additional, Henderson, Mark A., additional, Kajiwara, Ken, additional, McElhaney, Karen, additional, Nousiainen, Risto, additional, Oda, Yasuhisa, additional, Omori, Toshimichi, additional, Oustinov, Alexander, additional, Parmar, Darshankumar, additional, Popov, Vladimir L., additional, Purohit, Dharmesh, additional, Rao, Shambhu Laxmikanth, additional, Rasmussen, David, additional, Rathod, Vipal, additional, Ronden, Dennis M. S., additional, Saibene, Gabriella, additional, Sakamoto, Keishi, additional, Sartori, Filippo, additional, Scherer, Theo, additional, Singh, Narinder Pal, additional, Strauß, Dirk, additional, and Takahashi, Koji, additional

Published
2015
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19. Input–Output Finite-Time Stability of Linear Systems: Necessary and Sufficient Conditions.

Author

Amato, Francesco, Carannante, Giuseppe, De Tommasi, Gianmaria, and Pironti, Alfredo

Subjects
*LYAPUNOV stability, *LINEAR systems, *EQUATIONS, *LINEAR matrix inequalities, *INNER product spaces
Abstract

In the recent paper “Input-output finite-time stabilization of linear systems,” (F. Amato ) a sufficient condition for input–output finite-time stability (IO-FTS), when the inputs of the system are \cal L2 signals, has been provided; such condition requires the existence of a feasible solution to an optimization problem involving a certain differential linear matrix inequality (DLMI). Roughly speaking, a system is said to be input–output finite-time stable if, given a class of norm bounded input signals over a specified time interval of length T, the outputs of the system do not exceed an assigned threshold during such time interval. IO-FTS constraints permit to specify quantitative bounds on the controlled variables to be fulfilled during the transient response. In this context, this paper presents several novel contributions. First, by using an approach based on the reachability Gramian theory, we show that the main theorem of F. Amato is actually also a necessary condition for IO-FTS; at the same time we provide an alternative—still necessary and sufficient—condition for IO-FTS, in this case based on the existence of a suitable solution to a differential Lyapunov equality (DLE). We show that the last condition is computationally more efficient; however, the formulation via DLMI allows to solve the problem of the IO finite-time stabilization via output feedback. The effectiveness and computational issues of the two approaches for the analysis and the synthesis, respectively, are discussed in two examples; in particular, our methodology is used in the second example to minimize the maximum displacement and velocity of a building subject to an earthquake of given magnitude. [ABSTRACT FROM AUTHOR]

Published
2012
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20. Overview of JET results

Author

F. Romanelli, F. Laxaback, I. Abel, V. Afanesyev, G. Agarici, K. M. Aggarwal, M. Airila, R. Akers, T.h. Alarcon, A. Alexeev, A. Alfier, P. Allan, S. Almaviva, A. Alonso, M. Alonso, B. Alper, H. Altmann, D. Alves, V. Amosov, G. Anda, F. Andersson, E. Andersson Sund́en, V. Andreev, Y. Andrew, M. Angelone, M. Anghel, A. Anghel, C. Angioni, G. Apruzzese, N. Arcis, P. Arena, A. Argouarch, M. Ariola, A. Armitano, R. Armstrong, G. Arnoux, S. Arshad, G. Artaserse, J. F. Artaud, A. Ash, E. Asp, O. Asunta, C. V. Atanasiu, G. Atkins, M. D. Axton, C. Ayres, A. Baciero, V. Bailescu, B. Baiocchi, R. A. Baker, I. Balboa, C. Balorin, N. Balshaw, J. W. Banks, Y. F. Baranov, D. Barbier, I. L. Barlow, M. A. Barnard, R. Barnsley, L. Barrena, L. Barrera, M. Baruzzo, V. Basiuk, G. Bateman, P. Batistoni, N. Baumgarten, L. Baylor, B. Bazylev, P. S. Beaumont, K. Beausang, M. B́ecoulet, N. Bekris, M. Beldishevski, A. C. Bell, F. Belli, M. Bellinger, P. S. A. Belo, ́.E. Belonohy, P. E. Bennett, N. A. Benterman, G. Berger By, H. Bergsåker, H. Berk, J. Bernardo, B. Bertrand, M. N. A. Beurskens, B. Bieg, B. Bienkowska, T. Biewer, T. M. Biewer, M. Bigi, R. Bilato, J. Bird, J. Bizarro, T. R. Blackman, P. Blanchard, E. Blanco, J. Blum, V. Bobkov, A. Boboc, D. Boilson, I. Bolshakova, T. Bolzonella, L. Boncagni, G. Bonheure, X. Bonnin, D. Borba, A. Borthwick, A. Botrugno, C. Boulbe, F. Bouquey, C. Bourdelle, K. v. Bovert, M. Bowden, T. Boyce, H. J. Boyer, A. Bozhenkov, R. J. Brade, J. M. A. Bradshaw, J. Braet, V. Braic, G. C. Braithwaite, C. Brault, H. Braune, B. Breizman, S. Bremond, P. D. Brennan, A. Brett, J. Breue, S. Brezinsek, M. D. J. Bright, F. Briscoe, M. Brix, M. Brombin, B. C. Brown, D. P. D. Brown, A. Bruschi, J. Brzozowski, J. Bucalossi, M. A. Buckley, T. Budd, R. Budny, R. V. Budny, P. Bunting, P. Buratti, G. Burcea, P. R. Butcher, R. J. Buttery, R. Caç̃ao, G. Calabr`o, C. P. Callaghan, J. P. Caminade, P. G. Camp, D. C. Campling, J. Canik, B. Cannas, A. J. Capel, P. J. Card, A. Cardinali, T. Carlstrom, P. Carman, D. Carralero, L. Carraro, T. Carter, B. B. Carvalho, P. Carvalho, A. Casati, C. Castaldo, J. Caughman, R. Cavazzana, M. Cavinato, M. Cecconello, F. E. Cecil, A. Cenedese, C. Centioli, R. Cesario, C. D. Challis, M. Chandler, C. Chang, A. Chankin, I. T. Chapman, D. J. Child, P. Chiru, G. Chitarin, I. Chugonov, I. Chugunov, D. Ciric, F. Clairet, R. H. Clarke, R. Clay, M. Clever, J. P. Coad, P. A. Coates, V. Cocilovo, S. Coda, R. Coelho, J. Coenen, I. Coffey, L. Colas, M. Cole, S. Collins, S. Combs, J. Compan, J. E. Conboy, S. Conroy, N. Cook, S. P. Cook, D. Coombs, S. R. Cooper, Y. Corre, G. Corrigan, S. Cortes, D. Coster, G. F. Counsell, X. Courtois, M. Cox, T. Craciunescu, S. Cramp, F. Crisanti, O. Croft, K. Crombe, B. J. Crowley, N. Cruz, L. Cupido, M. Curuia, R. A. Cusack, A. Czarnecka, S. Dalley, E. T. Daly, A. Dalziel, D. Darrow, O. David, N. Davies, J. J. Davis, I. E. Day, C. Day, R. De Angelis, G. deArcas, M. R. de Baar, E. delaCal, E. de la Luna, J. L. de Pablos, G. De Temmerman, P. C. de Vries, F. Degli Agostini, E. Delabie, D. del Castillo Negrete, L. Delpech, G. Denisov, A. J. Denyer, R. F. Denyer, S. Devaux, P. Devynck, L. Di Matteo, L. DiPace, P. J. Dirken, A. Dnestrovskiy, D. Dodt, K. Dominiczak, S. E. Dorling, D. Douai, A. P. Down, P. T. Doyle, J. R. Drake, T. Dreischuh, V. Drozdov, P. Dumortier, D. Dunai, I. Duran, F. Durodíe, K. Dylst, R. Eaton, T. Edlington, A. M. Edwards, D. T. Edwards, P. K. Edwards, T.h. Eich, A. Ekedahl, T. Elevant, A. Elfimov, B. Ellingboe, C. G. Elsmore, B. Emmoth, G. Ericsson, L. G. Eriksson, A. Eriksson, B. Esposito, H. G. Esser, T. Estrada, E. A. Evangelidis, G. E. Evans, G. D. Ewart, D. T. Ewers, G. Falchetto, D. Falie, J. G. A. Fanthome, D. Farina, J. W. Farthing, A. Fasoli, B. Faugeras, N. Fedorczak, R. C. Felton, C. Fenzi, H. Fernandes, J. A. Ferreira, J. Ferreira, J. Ferron, J. A. Fessey, L. Figini, A. Figueiredo, J. Figueiredo, P. Finburg, K. H. Finken, U. Fischer, N. Fitzgerald, J. Flanagan, C. Fleming, A. Fonseca, A. D. Forbes, O. Ford, A. Formisano, D. Fraboulet, R. J. Francis, L. Frassinetti, R. Fresa, J. P. Friconneau, D. Frigione, J. C. Fuchs, K. Fullard, W. Fundamenski, M. Furno Palumbo, J. Gafert, K. Ǵal, R. Galṽao, S. Garavaglia, X. Garbet, J. Garcia, M. Gar cia Munoz, W. Gardner, P. Garibaldi, D. Garnier, L. Garzotti, M. Gatu Johnson, P. Gaudio, E. Gauthier, J. W. Gaze, D. F. Gear, J. Gedney, S. J. Gee, M. Gelfusa, E. Genangeli, S. Gerasimov, A. Geraud, T. Gerbaud, M. Gherendi, N. Ghirelli, J. C. Giacalone, L. Giacomelli, C. S. Gibson, C. Gil, S. J. Gilligan, C. G. Gimblett, D. Gin, E. Giovannozzi, C. Giroud, G. Giruzzi, S. Glowacz, J. Godwin, J. K. Goff, P. Gohil, V. Goloborod’ko, B. Gonçalves, M. Goniche, S. Gonzales, S. M. Gonźalezde Vicente, A. Goodyear, N. Gorelenkov, G. Gorini, R. Goulding, B. Graham, D. Graham, M. E. Graham, G. Granucci, J. Graves, N. R. Green, H. Greuner, E. Grigore, F. S. Griph, C. Grisolia, G. Gros, G. Grossetti, M. Groth, S. Gr̈unhagen, M. P. Gryaznevich, R. Guirlet, B. Gulejova, J. Gunn, A. Gupta, P. Guzdar, P. Hacek, L. J. Hackett, S. Hacquin, B. Haist, A. Hakola, S. J. Hall, S. P. HallworthCook, D. T. Hamilton, H. Han, R. C. Handley, S. Harding, J. D. W. Harling, D. Harting, M. J. Harvey, T. D. V. Haupt, E. Havlickova, N. C. Hawkes, R. Hawryluk, J. H. Hay, N. Hayashi, P. W. Haydon, I. R. Hayward, S. Hazel, P. J. L. Heesterman, W. Heidbrink, J. Heikkinen, C. Hellesen, T. Hellsten, O. N. Hemming, T. C. Hender, M. Henderson, C. Hennig, V. Hennion, C. Hidalgo, S. Higashijima, J. W. Hill, M. Hill, K. Hill, J. Hillairet, D. Hillis, T. Hirai, M. Hitchin, J. Hobirk, C. Hogan, C. H. A. Hogben, G. M. D. Hogeweij, I. C. Hollingham, R. Holyaka, D. A. Homfray, G. Honeyands, S. H. Hong, C. Hopf, B. A. Horn, A. R. Horton, L. D. Horton, S. P. Hotchin, M. R. Hough, W. Houlberg, D. F. Howell, M. Hron, A. Huber, T. M. Huddleston, Z. Hudson, M. Hughes, M. Ḧuhnerbein, C. C. Hume, A. J. Hunt, C. L. Hunter, T. S. Hutchinson, S. Huygen, G. Huysmans, V. Hyn̈onen, S. Ide, R. Igreja, C. Illescas, F. Imbeaux, D. Ivanova, E. Ivings, S. Jachmich, G. Jackson, P. Jacquet, K. Jakubowska, M. Jakubowski, P. V. James, R. J. E. Jaspers, S. Jednorog, I. Jenkins, M. A. C. Jennison, C. Jeskins, O. Jin Kwon, E. Joffrin, M. F. Johnson, R. Johnson, T. Johnson, D. Jolovic, V. Jonauskas, E. M. Jones, G. Jones, H. D. Jones, T. T. C. Jones, M. Jouvet, C. Juṕen, I. Kachtchouk, J. Kaczmarczyk, A. Kallenbach, J. K̈allne, D. Kalupin, S. Ḱalvin, G. Kamelander, R. Kamendje, A. Kappatou, S. Karttunen, W. Kasparek, I. Katramados, M. Kaufmann, G. Kaveney, A. S. Kaye, M. J. Kear, D. L. Keeling, D. Kelliher, M. Kempenaars, P. Khilar, N. G. Kidd, M. Kiisk, K. M. Kim, R. F. King, D. J. Kinna, V. Kiptily, G. Kirnev, N. Kirneva, K. Kirov, A. Kirschner, R. Kisielius, D. Kislov, G. Kiss, T. Kiviniemi, G. Kizane, A. Klein, A. Klix, M. Knaup, K. Kneuper, H. Kneupner, P. J. Knight, S. J. Knipe, M. Kocan, F. K̈ochl, G. Kocsis, C. Konz, T. Koppitz, A. Korotkov, H. R. Koslowski, V. Kotov, M. D. Kovari, K. Kovarik, G. Kramer, A. Krasilnikov, V. Krasilnikov, S. Kraus, A. Kreter, K. Krieger, A. Kritz, Y. Krivchenkov, U. Kruezi, M. Krychowiak, S. Krylov, I. Ksiazek, M. Kubic, S. Kuhn, W. K̈uhnlein, T. Kurki Suonio, A. Kurowski, B. Kuteev, A. Kuyanov, R. La Haye, M. Laan, C. Labate, A. Lachichi, N. Lam, P. Lang, M. T. Large, I. Lassiwe, J. R. Last, K. D. Lawson, M. Laxåback, R. A. Layne, E. Lazzaro, F. LeGuern, B. LeBlanc, H. J. Leggate, M. Lehnen, M. Leigheb, I. Lengar, M. Lennholm, E. Lerche, C. N. Lescure, Y. Li, A. Li Puma, Y. Liang, J. Likonen, Y. Lin, J. Linke, S. A. Linstead, B. Lipshultz, X. Litaudon, A. G. Litvak, Y. Liu, T. Loarer, A. Loarte, R. C. Lobel, P. J. Lomas, F. D. Long, J. L̈onnroth, D. J. Looker, J. Lopez, P.h. Lotte, M. J. Loughlin, A. B. Loving, C. Lowry, T. Luce, R. M. A. Lucock, A. Lukanitsa, A. M. Lungu, C. P. Lungu, A. Lyssoivan, P. Macheta, A. S. Mackenzie, M. Macrae, G. Maddaluno, G. P. Maddison, J. Madsen, P. Maget, C. Maggi, H. Maier, J. Mailloux, M. Makowski, C. J. Manning, M. Mansfield, M. E. Manso, P. Mantica, M. Mantsinen, M. Maraschek, C. Marchetto, M. A. Marchitti, M. Mardenfeld, J. L. Marechal, M. Marinelli, A. Marinoni, M. Marinucci, J. M̈arki, D. Marocco, C. A. Marren, D. Martin, D. L. Martin, G. Martin, Y. Martin, J. R. Mart́ın Soĺıs, K. Masaki, A. Masiello, M. Maslov, C. Maszl, A. Matilal, M. Mattei, G. F. Matthews, F. Maviglia, C. R. May, M. Mayer, M. L. Mayoral, D. Mazon, C. Mazzotta, E. Mazzucato, P. McCarthy, K. G. McClements, K. McCormick, P. A. McCullen, D. McCune, D. C. McDonald, R. Mcgregor, J. P. Mckivitt, A. Meakins, F. Medina, A. G. Meigs, M. Menard, L. Meneses, S. Menmuir, I. R. Merrigan, P.h. Mertens, A. Messiaen, H. Meyer, M. Miele, P. Migliucci, A. G. Miller, S. F. Mills, J. J. Milnes, K. Min Kim, T. Mindham, F. Mirizzi, E. Mirones, M. Mironov, R. Mitteau, J. Mlynar, P. Mollard, I. Monakhov, P. Monier Garbet, R. Mooney, S. Moradi, D. Moreau, P.h. Moreau, L. Moreira, A. Morgan, P. D. Morgan, C. Morlock, A. Moro, A. W. Morris, G. L. Mort, C. Mrozek, A. Mueck, H. W. M̈uller, M. Murakami, A. Murari, I. Mustata, F. Nabais, E. Nardon, G. Nash, V. Naulin, M. F. F. Nave, R. Nazikian, I. Nedzelski, C. R. Negus, J. D. Neilson, A. Neto, R. Neu, O. Neubauer, G. J. Newbert, M. Newman, K. J. Nicholls, A. Nicolai, L. Nicolas, P. Nieckchen, P. Nielsen, A. H. Nielsen, S. K. Nielsen, G. Nielson, J. Nieto, M. P. S. Nightingale, C. Noble, M. Nocente, M. Nora, H. Nordman, M. Norman, J. M. Noterdaeme, S. Nowak, I. Nunes, F. Ognissanto, T. O’Gorman, S. Olariu, A. Oleynikov, M. O’Mullane, J. Ongena, F. Orsitto, O. I. Oswuigwe, M. Ottaviani, N. Oyama, D. Pacella, K. Paget, S. Palazzo, J. Pamela, S. Pamela, R. Panek, L. Pangione, A. Panin, T.h. Panis, A. Pankin, A. Pantea, V. Parail, T.h. Parisot, A. Parkin, A. Parsloe, B. T. Parsons, R. Pasqualotto, P. Pastor, R. Paterson, M. K. Paul, D. Peach, R. J. H. Pearce, B. J. Pearson, I. J. Pearson, L. C. Pedrick, M. A. Pedrosa, B. Pegourie, R. Pereira, E. Perelli Cippo, G. Pereverzev, A. Perevezentsev, C.h. PerezvonThun, V. Pericoli Ridolfini, A. Perona, Y. Perrot, S. Peruzzo, S. Peschanyy, G. Petravich, L. Petrizzi, V. Petrov, V. Petrzilka, V. Philipps, G. Piazza, F. Piccolo, A. Pietropaolo, M. Pillon, S. D. Pinches, T. Pinna, G. Pintsuk, P. Piovesan, F. Pisano, R. Pitts, B. Plaum, V. Plyusnin, M. Polasik, F. M. Poli, N. Pomaro, O. Pompilian, L. Poncet, P. J. Pool, S. Popovichev, F. Porcelli, M. T. Porfiri, C. Portafaix, A. Pospieszczyk, G. Possnert, G. Prestopino, P. Prior, R. Prokopowicz, I. Proverbio, R. Pugno, M. E. Puiatti, K. Purahoo, V. Pustovitov, T.h. P̈utterich, D. P̈uttmann Kneupner, E. Rachlew, R. Rademaker, T. Rafiq, M. S. J. Rainford, G. Ramogida, K. Rantam̈aki, J. Rapp, J. J. Rasmussen, G. Ratt́a, G. Ravera, M. Reich, R. Reichle, D. Reiser, R. Reiss, D. Reiter, D. Rendell, C. Reux, G. Rewoldt, T. T. Ribeiro, V. Riccardo, D. Richards, F. Rigollet, F. G. Rimini, L. Rios, M. Riva, J. E. C. Roberts, R. J. Robins, D. S. Robinson, S. A. Robinson, D. W. Robson, H. Roche, M. R̈odig, N. Rodionov, V. Rohde, A. Rolfe, M. Romanelli, A. Romano, J. Romero, E. Ronchi, S. Rosanvallon, C.h. Roux, S. Rowe, M. Rubel, L. Ruchko, M. Ruiz, C. Ruset, M. Russell, A. Ruth, L. Ryc, A. Rydzy, F. Ryter, J. Rzadkiewicz, S. Saarelma, F. Sabathier, R. Sabot, S. Sadakov, P. Sagar, G. Saibene, A. Saille, F. Saint Laurent, A. Salmi, R. Salomaa, F. Salzedas, U. Samm, P. Sanchez, S. Sanders, S. G. Sanders, G. Sandford, K. Sandland, P. Sandquist, D. E. G. Sands, M. I. K. Santala, F. Sartori, R. Sartori, O. Sauter, A. Savelyev, A. Savtchkov, S. C. Scales, A. Scarabosio, N. Schaefer, C.h. Schlatter, V. Schmidt, A. Schmidt, O. Schmitz, S. Schmuck, M. Schneider, M. Scholz, K. Scḧopf, B. Schweer, J. Schweinzer, B. Scott, M. Seki, L. Semeraro, A. Semerok, G. Sergienko, F. Serra, M. Sertoli, M. M. J. Shannon, S. E. Sharapov, S. R. Shaw, A. Shevelev, R. Sievering, C. A. Silva, P. A. Simmons, A. Simonetto, D. Simpson, S. Sipila, A. C. C. Sips, A. Sirinelli, H. Sj̈ostrand, D. Skopintsev, K. S.l.a.b.k.o.w.s.k.a., P. G. Smith, J. Snipes, L. Snoj, S. Snyder, S. Soare, E. R. Solano, S. Soldatov, A. Soleto, W. Solomon, C. Soltane, P. Sonato, A. Sopplesa, A. Sorrentino, J. Sousa, C. B. C. Sowden, C. Sozzi, P. Sp̈ah, T. Spelzini, J. Spence, F. Spineanu, P. Spuig, A. Sẗabler, R. D. Stagg, M. F. Stamp, V. Stancalie, P. Stangeby, C. Stan Sion, D. E. Starkey, M. J. Stead, A. V. Stephen, A. L. Stevens, J. Stober, R. B. Stokes, D. Stork, D. Stoyanov, J. Strachan, P. Strand, M. Stransky, D. Strauss, D. Strintzi, W. Studholme, Y. SuNa, F. Subba, H. P. Summers, Y. Sun, C. Surdu Bob, E. Surrey, D. J. Sutton, J. Svensson, D. Swain, B. D. Syme, I. D. Symonds, T. Szepesi, A. Szydlowski, F. Tabares, V. Takalo, H. Takenaga, T. Tala, A. R. Talbot, C. Taliercio, C. Tame, G. Tardini, M. Tardocchi, L. Taroni, G. Telesca, A. Terra, A. O. Terrington, D. Testa, J. M. Theis, J. D. Thomas, P. D. Thomas, P. R. Thomas, V. K. Thompson, H. Thomsen, C. Thomser, A. Thyagaraja, P. A. Tigwell, I. Tiseanu, R. Tivey, J. M. Todd, T. N. Todd, M. Z. Tokar, S. Tosti, P. Trabuc, J. M. Travere, W. Treutterer, P. Trimble, A. Trkov, E. Trukhina, M. Tsalas, H. Tsige Tamirat, E. Tsitrone, D. Tskhakaya jun, O. Tudisco, S. Tugarinov, M. M. Turner, G. Turri, S. G. J. Tyrrell, N. Umeda, B. Unterberg, H. Urano, A. J. Urquhart, I. Uytdenhouwen, A. Vaccaro, A. P. Vadgama, G. Vagliasindi, D. Valcarcel, M. Valisa, J. Vallory, M. Valovic, D. Van Eester, B. van Milligen, G. J. van Rooij, C. A. F. Varandas, S. Vartanian, V. Vdovin, J. Vega, G. Verdoolaege, J. M. Verger, L. Vermare, C. Verona, T.h. Versloot, M. Vervier, J. Vicente, S. Villari, E. Villedieu, F. Villone, J. E. Vince, G. J. Vine, B. Viola, E. Vitale, R. Vitelli, M. Vlad, I. Voitsekhovitch, M. Vrancken, K. Vulliez, C. W. F. Waldon, M. Walker, M. J. Walsh, J. Waterhouse, M. L. Watkins, M. J. Watson, T. Wauters, M. W. Way, C. R. Webb, J. Weiland, H. Weisen, M. Weiszflog, R. Wenninger, A. T. West, J. M. Weulersse, B. Weyssow, M. R. Wheatley, A. D. Whiteford, A. M. Whitehead, A. G. Whitehurst, A. M. Widdowson, R. C. Wieggers, C. Wiegmann, S. Wiesen, A. Wilson, D. Wilson, D. J. Wilson, H. R. Wilson, M. Wischmeier, D. M. Witts, R. C. Wolf, J. Wolowski, P. Woscov, G. M. Wright, J. Wright, G. S. Xu, V. Yavorskij, V. Yerashok, J. Yorkshades, C. Young, D. Young, I. D. Young, X. Yuhong, L. Zabeo, A. Zabolotsky, L. Zaccarian, R. Zagorski, F. S. Zaitsev, S. Zajac, L. Zakharov, R. Zanino, V. Zaroschi, K. D. Zastrow, I. Zatz, B. Zefran, W. Zeidner, M. Zerbini, T. Zhang, Y. Zhu, E. Zilli, O. Zimmermann, V. Zoita, S. Zoletnik, W. Zwingman, JET EFDA Contributors, ALBANESE, Raffaele, AMBROSINO, GIUSEPPE, BELLIZIO, TERESA, CARANNANTE, GIUSEPPE, COCCORESE, VINCENZO, DE TOMMASI, GIANMARIA, MIANO, GIOVANNI, PIRONTI, ALFREDO, QUERCIA, ANTONIO, RUBINACCI, GUGLIELMO, J., Pamela, EMILIA R., Solano, AND JET EFDA, Contributor, J. M., Adam, G., Agarici, M., Agarici, H., Akhter, Albanese, Raffaele, Romanelli, F., Laxaback, F., Abel, I., Afanesyev, V., Agarici, G., Aggarwal, K. M., Airila, M., Akers, R., Alarcon, T. h., Alexeev, A., Alfier, A., Allan, P., Almaviva, S., Alonso, A., Alonso, M., Alper, B., Altmann, H., Alves, D., Ambrosino, Giuseppe, Amosov, V., Anda, G., Andersson, F., Andersson Sund́en, E., Andreev, V., Andrew, Y., Angelone, M., Anghel, M., Anghel, A., Angioni, C., Apruzzese, G., Arcis, N., Arena, P., Argouarch, A., Ariola, M., Armitano, A., Armstrong, R., Arnoux, G., Arshad, S., Artaserse, G., Artaud, J. F., Ash, A., Asp, E., Asunta, O., Atanasiu, C. V., Atkins, G., Axton, M. D., Ayres, C., Baciero, A., Bailescu, V., Baiocchi, B., Baker, R. A., Balboa, I., Balorin, C., Balshaw, N., Banks, J. W., Baranov, Y. F., Barbier, D., Barlow, I. L., Barnard, M. A., Barnsley, R., Barrena, L., Barrera, L., Baruzzo, M., Basiuk, V., Bateman, G., Batistoni, P., Baumgarten, N., Baylor, L., Bazylev, B., Beaumont, P. S., Beausang, K., B́ecoulet, M., Bekris, N., Beldishevski, M., Bell, A. C., Belli, F., Bellinger, M., Bellizio, Teresa, Belo, P. S. A., Belonohy, ́. E., Bennett, P. E., Benterman, N. A., Berger By, G., Bergsåker, H., Berk, H., Bernardo, J., Bertrand, B., Beurskens, M. N. A., Bieg, B., Bienkowska, B., Biewer, T., Biewer, T. M., Bigi, M., Bilato, R., Bird, J., Bizarro, J., Blackman, T. R., Blanchard, P., Blanco, E., Blum, J., Bobkov, V., Boboc, A., Boilson, D., Bolshakova, I., Bolzonella, T., Boncagni, L., Bonheure, G., Bonnin, X., Borba, D., Borthwick, A., Botrugno, A., Boulbe, C., Bouquey, F., Bourdelle, C., Bovert, K. v., Bowden, M., Boyce, T., Boyer, H. J., Bozhenkov, A., Brade, R. J., Bradshaw, J. M. A., Braet, J., Braic, V., Braithwaite, G. C., Brault, C., Braune, H., Breizman, B., Bremond, S., Brennan, P. D., Brett, A., Breue, J., Brezinsek, S., Bright, M. D. J., Briscoe, F., Brix, M., Brombin, M., Brown, B. C., Brown, D. P. D., Bruschi, A., Brzozowski, J., Bucalossi, J., Buckley, M. A., Budd, T., Budny, R., Budny, R. V., Bunting, P., Buratti, P., Burcea, G., Butcher, P. R., Buttery, R. J., Caç̃ao, R., Calabr`o, G., Callaghan, C. P., Caminade, J. P., Camp, P. G., Campling, D. C., Canik, J., Cannas, B., Capel, A. J., Carannante, Giuseppe, Card, P. J., Cardinali, A., Carlstrom, T., Carman, P., Carralero, D., Carraro, L., Carter, T., Carvalho, B. B., Carvalho, P., Casati, A., Castaldo, C., Caughman, J., Cavazzana, R., Cavinato, M., Cecconello, M., Cecil, F. E., Cenedese, A., Centioli, C., Cesario, R., Challis, C. D., Chandler, M., Chang, C., Chankin, A., Chapman, I. T., Child, D. J., Chiru, P., Chitarin, G., Chugonov, I., Chugunov, I., Ciric, D., Clairet, F., Clarke, R. H., Clay, R., Clever, M., Coad, J. P., Coates, P. A., Coccorese, Vincenzo, Cocilovo, V., Coda, S., Coelho, R., Coenen, J., Coffey, I., Colas, L., Cole, M., Collins, S., Combs, S., Compan, J., Conboy, J. E., Conroy, S., Cook, N., Cook, S. P., Coombs, D., Cooper, S. R., Corre, Y., Corrigan, G., Cortes, S., Coster, D., Counsell, G. F., Courtois, X., Cox, M., Craciunescu, T., Cramp, S., Crisanti, F., Croft, O., Crombe, K., Crowley, B. J., Cruz, N., Cupido, L., Curuia, M., Cusack, R. A., Czarnecka, A., Dalley, S., Daly, E. T., Dalziel, A., Darrow, D., David, O., Davies, N., Davis, J. J., Day, I. E., Day, C., De Angelis, R., Dearcas, G., de Baar, M. R., Delacal, E., de la Luna, E., de Pablos, J. L., De Temmerman, G., DE TOMMASI, Gianmaria, de Vries, P. C., Degli Agostini, F., Delabie, E., del Castillo Negrete, D., Delpech, L., Denisov, G., Denyer, A. J., Denyer, R. F., Devaux, S., Devynck, P., Di Matteo, L., Dipace, L., Dirken, P. J., Dnestrovskiy, A., Dodt, D., Dominiczak, K., Dorling, S. E., Douai, D., Down, A. P., Doyle, P. T., Drake, J. R., Dreischuh, T., Drozdov, V., Dumortier, P., Dunai, D., Duran, I., Durodíe, F., Dylst, K., Eaton, R., Edlington, T., Edwards, A. M., Edwards, D. T., Edwards, P. K., Eich, T. h., Ekedahl, A., Elevant, T., Elfimov, A., Ellingboe, B., Elsmore, C. G., Emmoth, B., Ericsson, G., Eriksson, L. G., Eriksson, A., Esposito, B., Esser, H. G., Estrada, T., Evangelidis, E. A., Evans, G. E., Ewart, G. D., Ewers, D. T., Falchetto, G., Falie, D., Fanthome, J. G. A., Farina, D., Farthing, J. W., Fasoli, A., Faugeras, B., Fedorczak, N., Felton, R. C., Fenzi, C., Fernandes, H., Ferreira, J. A., Ferreira, J., Ferron, J., Fessey, J. A., Figini, L., Figueiredo, A., Figueiredo, J., Finburg, P., Finken, K. H., Fischer, U., Fitzgerald, N., Flanagan, J., Fleming, C., Fonseca, A., Forbes, A. D., Ford, O., Formisano, A., Fraboulet, D., Francis, R. J., Frassinetti, L., Fresa, R., Friconneau, J. P., Frigione, D., Fuchs, J. C., Fullard, K., Fundamenski, W., Furno Palumbo, M., Gafert, J., Ǵal, K., Galṽao, R., Garavaglia, S., Garbet, X., Garcia, J., Gar cia Munoz, M., Gardner, W., Garibaldi, P., Garnier, D., Garzotti, L., Gatu Johnson, M., Gaudio, P., Gauthier, E., Gaze, J. W., Gear, D. F., Gedney, J., Gee, S. J., Gelfusa, M., Genangeli, E., Gerasimov, S., Geraud, A., Gerbaud, T., Gherendi, M., Ghirelli, N., Giacalone, J. C., Giacomelli, L., Gibson, C. S., Gil, C., Gilligan, S. J., Gimblett, C. G., Gin, D., Giovannozzi, E., Giroud, C., Giruzzi, G., Glowacz, S., Godwin, J., Goff, J. K., Gohil, P., Goloborod’Ko, V., Gonçalves, B., Goniche, M., Gonzales, S., Gonźalezde Vicente, S. M., Goodyear, A., Gorelenkov, N., Gorini, G., Goulding, R., Graham, B., Graham, D., Graham, M. E., Granucci, G., Graves, J., Green, N. R., Greuner, H., Grigore, E., Griph, F. S., Grisolia, C., Gros, G., Grossetti, G., Groth, M., Gr̈unhagen, S., Gryaznevich, M. P., Guirlet, R., Gulejova, B., Gunn, J., Gupta, A., Guzdar, P., Hacek, P., Hackett, L. J., Hacquin, S., Haist, B., Hakola, A., Hall, S. J., Hallworthcook, S. P., Hamilton, D. T., Han, H., Handley, R. C., Harding, S., Harling, J. D. W., Harting, D., Harvey, M. J., Haupt, T. D. V., Havlickova, E., Hawkes, N. C., Hawryluk, R., Hay, J. H., Hayashi, N., Haydon, P. W., Hayward, I. R., Hazel, S., Heesterman, P. J. L., Heidbrink, W., Heikkinen, J., Hellesen, C., Hellsten, T., Hemming, O. N., Hender, T. C., Henderson, M., Hennig, C., Hennion, V., Hidalgo, C., Higashijima, S., Hill, J. W., Hill, M., Hill, K., Hillairet, J., Hillis, D., Hirai, T., Hitchin, M., Hobirk, J., Hogan, C., Hogben, C. H. A., Hogeweij, G. M. D., Hollingham, I. C., Holyaka, R., Homfray, D. A., Honeyands, G., Hong, S. H., Hopf, C., Horn, B. A., Horton, A. R., Horton, L. D., Hotchin, S. P., Hough, M. R., Houlberg, W., Howell, D. F., Hron, M., Huber, A., Huddleston, T. M., Hudson, Z., Hughes, M., Ḧuhnerbein, M., Hume, C. C., Hunt, A. J., Hunter, C. L., Hutchinson, T. S., Huygen, S., Huysmans, G., Hyn̈onen, V., Ide, S., Igreja, R., Illescas, C., Imbeaux, F., Ivanova, D., Ivings, E., Jachmich, S., Jackson, G., Jacquet, P., Jakubowska, K., Jakubowski, M., James, P. V., Jaspers, R. J. E., Jednorog, S., Jenkins, I., Jennison, M. A. C., Jeskins, C., Jin Kwon, O., Joffrin, E., Johnson, M. F., Johnson, R., Johnson, T., Jolovic, D., Jonauskas, V., Jones, E. M., Jones, G., Jones, H. D., Jones, T. T. C., Jouvet, M., Juṕen, C., Kachtchouk, I., Kaczmarczyk, J., Kallenbach, A., K̈allne, J., Kalupin, D., Ḱalvin, S., Kamelander, G., Kamendje, R., Kappatou, A., Karttunen, S., Kasparek, W., Katramados, I., Kaufmann, M., Kaveney, G., Kaye, A. S., Kear, M. J., Keeling, D. L., Kelliher, D., Kempenaars, M., Khilar, P., Kidd, N. G., Kiisk, M., Kim, K. M., King, R. F., Kinna, D. J., Kiptily, V., Kirnev, G., Kirneva, N., Kirov, K., Kirschner, A., Kisielius, R., Kislov, D., Kiss, G., Kiviniemi, T., Kizane, G., Klein, A., Klix, A., Knaup, M., Kneuper, K., Kneupner, H., Knight, P. J., Knipe, S. J., Kocan, M., K̈ochl, F., Kocsis, G., Konz, C., Koppitz, T., Korotkov, A., Koslowski, H. R., Kotov, V., Kovari, M. D., Kovarik, K., Kramer, G., Krasilnikov, A., Krasilnikov, V., Kraus, S., Kreter, A., Krieger, K., Kritz, A., Krivchenkov, Y., Kruezi, U., Krychowiak, M., Krylov, S., Ksiazek, I., Kubic, M., Kuhn, S., K̈uhnlein, W., Kurki Suonio, T., Kurowski, A., Kuteev, B., Kuyanov, A., La Haye, R., Laan, M., Labate, C., Lachichi, A., Lam, N., Lang, P., Large, M. T., Lassiwe, I., Last, J. R., Lawson, K. D., Laxåback, M., Layne, R. A., Lazzaro, E., Leguern, F., Leblanc, B., Leggate, H. J., Lehnen, M., Leigheb, M., Lengar, I., Lennholm, M., Lerche, E., Lescure, C. N., Li, Y., Li Puma, A., Liang, Y., Likonen, J., Lin, Y., Linke, J., Linstead, S. A., Lipshultz, B., Litaudon, X., Litvak, A. G., Liu, Y., Loarer, T., Loarte, A., Lobel, R. C., Lomas, P. J., Long, F. D., L̈onnroth, J., Looker, D. J., Lopez, J., Lotte, P. h., Loughlin, M. J., Loving, A. B., Lowry, C., Luce, T., Lucock, R. M. A., Lukanitsa, A., Lungu, A. M., Lungu, C. P., Lyssoivan, A., Macheta, P., Mackenzie, A. S., Macrae, M., Maddaluno, G., Maddison, G. P., Madsen, J., Maget, P., Maggi, C., Maier, H., Mailloux, J., Makowski, M., Manning, C. J., Mansfield, M., Manso, M. E., Mantica, P., Mantsinen, M., Maraschek, M., Marchetto, C., Marchitti, M. A., Mardenfeld, M., Marechal, J. L., Marinelli, M., Marinoni, A., Marinucci, M., M̈arki, J., Marocco, D., Marren, C. A., Martin, D., Martin, D. L., Martin, G., Martin, Y., Mart́ın Soĺıs, J. R., Masaki, K., Masiello, A., Maslov, M., Maszl, C., Matilal, A., Mattei, M., Matthews, G. F., Maviglia, F., May, C. R., Mayer, M., Mayoral, M. L., Mazon, D., Mazzotta, C., Mazzucato, E., Mccarthy, P., Mcclements, K. G., Mccormick, K., Mccullen, P. A., Mccune, D., Mcdonald, D. C., Mcgregor, R., Mckivitt, J. P., Meakins, A., Medina, F., Meigs, A. G., Menard, M., Meneses, L., Menmuir, S., Merrigan, I. R., Mertens, P. h., Messiaen, A., Meyer, H., Miano, Giovanni, Miele, M., Migliucci, P., Miller, A. G., Mills, S. F., Milnes, J. J., Min Kim, K., Mindham, T., Mirizzi, F., Mirones, E., Mironov, M., Mitteau, R., Mlynar, J., Mollard, P., Monakhov, I., Monier Garbet, P., Mooney, R., Moradi, S., Moreau, D., Moreau, P. h., Moreira, L., Morgan, A., Morgan, P. D., Morlock, C., Moro, A., Morris, A. W., Mort, G. L., Mrozek, C., Mueck, A., M̈uller, H. W., Murakami, M., Murari, A., Mustata, I., Nabais, F., Nardon, E., Nash, G., Naulin, V., Nave, M. F. F., Nazikian, R., Nedzelski, I., Negus, C. R., Neilson, J. D., Neto, A., Neu, R., Neubauer, O., Newbert, G. J., Newman, M., Nicholls, K. J., Nicolai, A., Nicolas, L., Nieckchen, P., Nielsen, P., Nielsen, A. H., Nielsen, S. K., Nielson, G., Nieto, J., Nightingale, M. P. S., Noble, C., Nocente, M., Nora, M., Nordman, H., Norman, M., Noterdaeme, J. M., Nowak, S., Nunes, I., Ognissanto, F., O’Gorman, T., Olariu, S., Oleynikov, A., O’Mullane, M., Ongena, J., Orsitto, F., Oswuigwe, O. I., Ottaviani, M., Oyama, N., Pacella, D., Paget, K., Palazzo, S., Pamela, J., Pamela, S., Panek, R., Pangione, L., Panin, A., Panis, T. h., Pankin, A., Pantea, A., Parail, V., Parisot, T. h., Parkin, A., Parsloe, A., Parsons, B. T., Pasqualotto, R., Pastor, P., Paterson, R., Paul, M. K., Peach, D., Pearce, R. J. H., Pearson, B. J., Pearson, I. J., Pedrick, L. C., Pedrosa, M. A., Pegourie, B., Pereira, R., Perelli Cippo, E., Pereverzev, G., Perevezentsev, A., Perezvonthun, C. h., Pericoli Ridolfini, V., Perona, A., Perrot, Y., Peruzzo, S., Peschanyy, S., Petravich, G., Petrizzi, L., Petrov, V., Petrzilka, V., Philipps, V., Piazza, G., Piccolo, F., Pietropaolo, A., Pillon, M., Pinches, S. D., Pinna, T., Pintsuk, G., Piovesan, P., Pironti, Alfredo, Pisano, F., Pitts, R., Plaum, B., Plyusnin, V., Polasik, M., Poli, F. M., Pomaro, N., Pompilian, O., Poncet, L., Pool, P. J., Popovichev, S., Porcelli, F., Porfiri, M. T., Portafaix, C., Pospieszczyk, A., Possnert, G., Prestopino, G., Prior, P., Prokopowicz, R., Proverbio, I., Pugno, R., Puiatti, M. E., Purahoo, K., Pustovitov, V., P̈utterich, T. h., P̈uttmann Kneupner, D., Quercia, Antonio, Rachlew, E., Rademaker, R., Rafiq, T., Rainford, M. S. J., Ramogida, G., Rantam̈aki, K., Rapp, J., Rasmussen, J. J., Ratt́a, G., Ravera, G., Reich, M., Reichle, R., Reiser, D., Reiss, R., Reiter, D., Rendell, D., Reux, C., Rewoldt, G., Ribeiro, T. T., Riccardo, V., Richards, D., Rigollet, F., Rimini, F. G., Rios, L., Riva, M., Roberts, J. E. C., Robins, R. J., Robinson, D. S., Robinson, S. A., Robson, D. W., Roche, H., R̈odig, M., Rodionov, N., Rohde, V., Rolfe, A., Romanelli, M., Romano, A., Romero, J., Ronchi, E., Rosanvallon, S., Roux, C. h., Rowe, S., Rubel, M., Rubinacci, Guglielmo, Ruchko, L., Ruiz, M., Ruset, C., Russell, M., Ruth, A., Ryc, L., Rydzy, A., Ryter, F., Rzadkiewicz, J., Saarelma, S., Sabathier, F., Sabot, R., Sadakov, S., Sagar, P., Saibene, G., Saille, A., Saint Laurent, F., Salmi, A., Salomaa, R., Salzedas, F., Samm, U., Sanchez, P., Sanders, S., Sanders, S. G., Sandford, G., Sandland, K., Sandquist, P., Sands, D. E. G., Santala, M. I. K., Sartori, F., Sartori, R., Sauter, O., Savelyev, A., Savtchkov, A., Scales, S. C., Scarabosio, A., Schaefer, N., Schlatter, C. h., Schmidt, V., Schmidt, A., Schmitz, O., Schmuck, S., Schneider, M., Scholz, M., Scḧopf, K., Schweer, B., Schweinzer, J., Scott, B., Seki, M., Semeraro, L., Semerok, A., Sergienko, G., Serra, F., Sertoli, M., Shannon, M. M. J., Sharapov, S. E., Shaw, S. R., Shevelev, A., Sievering, R., Silva, C. A., Simmons, P. A., Simonetto, A., Simpson, D., Sipila, S., Sips, A. C. C., Sirinelli, A., Sj̈ostrand, H., Skopintsev, D., K. S. l. a. b. k. o. w. s. k. a., Smith, P. G., Snipes, J., Snoj, L., Snyder, S., Soare, S., Solano, E. R., Soldatov, S., Soleto, A., Solomon, W., Soltane, C., Sonato, P., Sopplesa, A., Sorrentino, A., Sousa, J., Sowden, C. B. C., Sozzi, C., Sp̈ah, P., Spelzini, T., Spence, J., Spineanu, F., Spuig, P., Sẗabler, A., Stagg, R. D., Stamp, M. F., Stancalie, V., Stangeby, P., Stan Sion, C., Starkey, D. E., Stead, M. J., Stephen, A. V., Stevens, A. L., Stober, J., Stokes, R. B., Stork, D., Stoyanov, D., Strachan, J., Strand, P., Stransky, M., Strauss, D., Strintzi, D., Studholme, W., Suna, Y., Subba, F., Summers, H. P., Sun, Y., Surdu Bob, C., Surrey, E., Sutton, D. J., Svensson, J., Swain, D., Syme, B. D., Symonds, I. D., Szepesi, T., Szydlowski, A., Tabares, F., Takalo, V., Takenaga, H., Tala, T., Talbot, A. R., Taliercio, C., Tame, C., Tardini, G., Tardocchi, M., Taroni, L., Telesca, G., Terra, A., Terrington, A. O., Testa, D., Theis, J. M., Thomas, J. D., Thomas, P. D., Thomas, P. R., Thompson, V. K., Thomsen, H., Thomser, C., Thyagaraja, A., Tigwell, P. A., Tiseanu, I., Tivey, R., Todd, J. M., Todd, T. N., Tokar, M. Z., Tosti, S., Trabuc, P., Travere, J. M., Treutterer, W., Trimble, P., Trkov, A., Trukhina, E., Tsalas, M., Tsige Tamirat, H., Tsitrone, E., Tskhakaya jun, D., Tudisco, O., Tugarinov, S., Turner, M. M., Turri, G., Tyrrell, S. G. J., Umeda, N., Unterberg, B., Urano, H., Urquhart, A. J., Uytdenhouwen, I., Vaccaro, A., Vadgama, A. P., Vagliasindi, G., Valcarcel, D., Valisa, M., Vallory, J., Valovic, M., Van Eester, D., van Milligen, B., van Rooij, G. J., Varandas, C. A. F., Vartanian, S., Vdovin, V., Vega, J., Verdoolaege, G., Verger, J. M., Vermare, L., Verona, C., Versloot, T. h., Vervier, M., Vicente, J., Villari, S., Villedieu, E., Villone, F., Vince, J. E., Vine, G. J., Viola, B., Vitale, E., Vitelli, R., Vlad, M., Voitsekhovitch, I., Vrancken, M., Vulliez, K., Waldon, C. W. F., Walker, M., Walsh, M. J., Waterhouse, J., Watkins, M. L., Watson, M. J., Wauters, T., Way, M. W., Webb, C. R., Weiland, J., Weisen, H., Weiszflog, M., Wenninger, R., West, A. T., Weulersse, J. M., Weyssow, B., Wheatley, M. R., Whiteford, A. D., Whitehead, A. M., Whitehurst, A. G., Widdowson, A. M., Wieggers, R. C., Wiegmann, C., Wiesen, S., Wilson, A., Wilson, D., Wilson, D. J., Wilson, H. R., Wischmeier, M., Witts, D. M., Wolf, R. C., Wolowski, J., Woscov, P., Wright, G. M., Wright, J., G. S., Xu, Yavorskij, V., Yerashok, V., Yorkshades, J., Young, C., Young, D., Young, I. D., Yuhong, X., Zabeo, L., Zabolotsky, A., Zaccarian, L., Zagorski, R., Zaitsev, F. S., Zajac, S., Zakharov, L., Zanino, R., Zaroschi, V., Zastrow, K. D., Zatz, I., Zefran, B., Zeidner, W., Zerbini, M., Zhang, T., Zhu, Y., Zilli, E., Zimmermann, O., Zoita, V., Zoletnik, S., Zwingman, W., JET EFDA Contributors, Romanelli, F, Laxaback, M, Abel, I, Afanesyev, V, Agarici, G, Aggarwal, K, Airila, M, Akers, R, Alarcon, T, Albanese, R, Alexeev, A, Alfier, A, Allan, P, Almaviva, S, Alonso, A, Alonso, M, Alper, B, Altmann, H, Alves, D, Ambrosino, G, Amosov, V, Anda, G, Andersson, F, Andersson Sunden, E, Andreev, V, Andrew, Y, Angelone, M, Anghel, M, Anghel, A, Angioni, C, Apruzzese, G, Arcis, N, Arena, P, Argouarch, A, Ariola, M, Armitano, A, Armstrong, R, Arnoux, G, Arshad, S, Artaserse, G, Artaud, J, Ash, A, Asp, E, Asunta, O, Atanasiu, C, Atkins, G, Axton, M, Ayres, C, Baciero, A, Bailescu, V, Baiocchi, B, Baker, R, Balboa, I, Balorin, C, Balshaw, N, Banks, J, Baranov, Y, Barbier, D, Barlow, I, Barnard, M, Barnsley, R, Barrena, L, Barrera, L, Baruzzo, M, Basiuk, V, Bateman, G, Batiston, P, Baumgarten, N, Baylor, L, Bazylev, B, Beaumont, P, Beausang, K, Becoulet, M, Bekris, N, Beldishevski, M, Bell, A, Belli, F, Bellinger, M, Bellizio, T, Belo, P, Belonohy, E, Bennett, P, Benterman, N, Berger By, G, Bergsaker, H, Berk, H, Bernardo, J, Bertrand, B, Beurskens, M, Bieg, B, Bienkowska, B, Biewer, T, Bigi, M, Bilato, R, Bird, J, Bizarro, J, Blackman, T, Blanchard, P, Blanco, E, Blum, J, Bobkov, V, Boboc, A, Boilson, D, Bolshakova, I, Bolzonella, T, Boncagni, L, Bonheure, G, Bonnin, X, Borba, D, Borthwick, A, Botrugno, A, Boulbe, C, Bouquey, F, Bourdelle, C, Bovert, K, Bowden, M, Boyce, T, Boyer, H, Bozhenkov, A, Brade, R, Bradshaw, J, Braet, J, Braic, V, Braithwaite, G, Brault, C, Braune, H, Breizman, B, Bremond, S, Brennan, P, Brett, A, Breue, J, Brezinsek, S, Bright, M, Briscoe, F, Brix, M, Brombin, M, Brown, B, Brown, D, Bruschi, A, Brzozowski, J, Bucalossi, J, Buckley, M, Budd, T, Budny, R, Bunting, P, Buratti, P, Burcea, G, Butcher, P, Buttery, R, Cacao, R, Calabro, G, Callaghan, C, Caminade, J, Camp, P, Campling, D, Canik, J, Cannas, B, Capel, A, Carannante, G, Card, P, Cardinali, A, Carlstrom, T, Carman, P, Carralero, D, Carraro, L, Carter, T, Carvalho, B, Carvalho, P, Casati, A, Castaldo, C, Caughman, J, Cavazzana, R, Cavinato, M, Cecconello, M, Cecil, F, Cenedese, A, Centioli, C, Cesario, R, Challis, C, Chandler, M, Chang, C, Chankin, A, Chapman, I, Child, D, Chiru, P, Chitarin, G, Chugonov, I, Ciric, D, Clairet, F, Clarke, R, Clay, R, Clever, M, Coad, J, Coates, P, Coccorese, V, Cocilovo, V, Coda, S, Coelho, R, Coenen, J, Coffey, I, Colas, L, Cole, M, Collins, S, Combs, S, Compan, J, Conboy, J, Conroy, S, Cook, N, Cook, S, Coombs, D, Cooper, S, Corre, Y, Corrigan, G, Cortes, S, Coster, D, Counsell, G, Courtois, X, Cox, M, Craciunescu, T, Cramp, S, Crisanti, F, Croft, O, Crombe, K, Crowley, B, Cruz, N, Cupido, L, Curuia, M, Cusack, R, Czarnecka, A, Dalley, S, Daly, E, Dalziel, A, Darrow, D, David, O, Davies, N, Davis, J, Day, I, Day, C, De Angelis, R, de Arcas, G, de Baar, M, de la Cal, E, de la Luna, E, de Pablos, J, De Temmerman, G, De Tommasi, G, de Vries, P, Degli Agostini, F, Delabie, E, del Castillo Negrete, D, Delpech, L, Denisov, G, Denyer, A, Denyer, R, Devaux, S, Devynck, P, Di Matteo, L, Di Pace, L, Dirken, P, Dnestrovskiy, A, Dodt, D, Dominiczak, K, Dorling, S, Douai, D, Down, A, Doyle, P, Drake, J, Dreischuh, T, Drozdov, V, Dumortier, P, Dunai, D, Duran, I, Durodie, F, Dylst, K, Eaton, R, Edlington, T, Edwards, A, Edwards, D, Edwards, P, Eich, T, Ekedahl, A, Elevant, T, Elfimov, A, Ellingboe, B, Elsmore, C, Emmoth, B, Ericsson, G, Eriksson, L, Eriksson, A, Esposito, B, Esser, H, Estrada, T, Evangelidis, E, Evans, G, Ewart, G, Ewers, D, Falchetto, G, Falie, D, Fanthome, J, Farina, D, Farthing, J, Fasoli, A, Faugeras, B, Fedorczak, N, Felton, R, Fenzi, C, Fernandes, H, Ferreira, J, Ferron, J, Fessey, J, Figini, L, Figueiredo, A, Figueiredo, J, Finburg, P, Finken, K, Fischer, U, Fitzgerald, N, Flanagan, J, Fleming, C, Fonseca, A, Forbes, A, Ford, O, Formisano, A, Fraboulet, D, Francis, R, Frassinetti, L, Fresa, R, Friconneau, J, Frigione, D, Fuchs, J, Fullard, K, Fundamenski, W, Furno Palumbo, M, Gafert, J, Gal, K, Galvao, R, Garavaglia, S, Garbet, X, Garcia, J, Garcia Munoz, M, Gardner, W, Garibaldi, P, Garnier, D, Garzotti, L, Gatu Johnson, M, Gaudio, P, Gauthier, E, Gaze, J, Gear, D, Gedney, J, Gee, S, Gelfusa, M, Genangeli, E, Gerasimov, S, Geraud, A, Gerbaud, T, Gherendi, M, Ghirelli, N, Giacalone, J, Giacomelli, L, Gibson, C, Gil, C, Gilligan, S, Gimblett, C, Gin, D, Giovannozzi, E, Giroud, C, Giruzzi, G, Glowacz, S, Godwin, J, Goff, J, Gohil, P, Goloborod'Ko, V, Goncalves, B, Goniche, M, Gonzales, S, Gonzales de Vicente, S, Goodyear, A, Gorelenkov, N, Gorini, G, Goulding, R, Graham, B, Graham, D, Graham, M, Granucci, G, Graves, J, Green, N, Greuner, H, Grigore, E, Griph, F, Grisolia, C, Gros, G, Grossetti, G, Groth, M, Gruenhagen, S, Gryaznevich, M, Guirlet, R, Gulejova, B, Gunn, J, Gupta, A, Guzdar, P, Hacek, P, Hackett, L, Hacquin, S, Haist, B, Hakola, A, Hall, S, Hallworth Cook, S, Hamilton, D, Han, H, Handley, R, Harding, S, Harling, J, Harting, D, Harvey, M, Haupt, T, Havlickova, E, Hawkes, N, Hawryluk, R, Hay, J, Hayashi, N, Haydon, P, Hayward, I, Hazel, S, Heesterman, P, Heidbrink, W, Heikkinen, J, Hellesen, C, Hellsten, T, Hemming, O, Hender, T, Henderson, M, Hennig, C, Hennion, V, Hidalgo, C, Higashijima, S, Hill, J, Hill, M, Hill, K, Hillairet, J, Hillis, D, Hirai, T, Hitchin, M, Hobirk, J, Hogan, C, Hogben, C, Hogeweij, G, Hollingham, I, Holyaka, R, Homfray, D, Honeyands, G, Hong, S, Hopf, C, Horn, B, Horton, A, Horton, L, Hotchin, S, Hough, M, Houlberg, W, Howell, D, Hron, M, Huber, A, Huddleston, T, Hudson, Z, Hughes, M, Huehnerbein, M, Hume, C, Hunt, A, Hunter, C, Hutchinson, T, Huygen, S, Huysmans, G, Hynoenen, V, Ide, S, Igreja, R, Illescas, C, Imbeaux, F, Ivanova, D, Ivings, E, Jachmich, S, Jackson, G, Jacquet, P, Jakubowska, K, Jakubowski, M, James, P, Jaspers, R, Jednorog, S, Jenkins, I, Jennison, M, Jeskins, C, Jin Kwon, O, Joffrin, E, Johnson, M, Johnson, R, Johnson, T, Jolovic, D, Jonauskas, V, Jones, E, Jones, G, Jones, H, Jones, T, Jouvet, M, Jupen, C, Kachtchouk, I, Kaczmarczyk, J, Kallenbach, A, Kaellne, J, Kalupin, D, Kalvin, S, Kamelander, G, Kamendje, R, Kappatou, A, Karttunen, S, Kasparek, W, Katramados, I, Kaufmann, M, Kaveney, G, Kaye, A, Kear, M, Keeling, D, Kelliher, D, Kempenaars, M, Khilar, P, Kidd, N, Kiisk, M, Kim, K, King, R, Kinna, D, Kiptily, V, Kirnev, G, Kirneva, N, Kirov, K, Kirschner, A, Kisielius, R, Kislov, D, Kiss, G, Kiviniemi, T, Kizane, G, Klein, A, Klix, A, Knaup, M, Kneuper, K, Kneupner, H, Knight, P, Knipe, S, Kocan, M, Koechl, F, Kocsis, G, Konz, C, Koppitz, T, Korotkov, A, Koslowski, H, Kotov, V, Kovari, M, Kovarik, K, Kramer, G, Krasilnikov, A, Krasilnikov, V, Kraus, S, Kreter, A, Krieger, K, Kritz, A, Krivchenkov, Y, Kruezi, U, Krychowiak, M, Krylov, S, Ksiazek, I, Kubic, M, Kuhn, S, Kuehnlein, W, Kurki Suonio, T, Kurowski, A, Kuteev, B, Kuyanov, A, La Haye, R, Laan, M, Labate, C, Lachichi, A, Lam, N, Lang, P, Large, M, Lassiwe, I, Last, J, Lawson, K, Layne, R, Lazzaro, E, Le Guern, F, Leblanc, B, Leggate, H, Lehnen, M, Leigheb, M, Lengar, I, Lennholm, M, Lerche, E, Lescure, C, Li, Y, Li Puma, A, Liang, Y, Likonen, J, Lin, Y, Linke, J, Linstead, S, Lipshultz, B, Litaudon, X, Litvak, A, Liu, Y, Loarer, T, Loarte, A, Lobel, R, Lomas, P, Long, F, Loennroth, J, Looker, D, Lopez, J, Lotte, P, Loughlin, M, Loving, A, Lowry, C, Luce, T, Lucock, R, Lukanitsa, A, Lungu, A, Lungu, C, Lyssoivan, A, Macheta, P, Mackenzie, A, Macrae, M, Maddaluno, G, Maddison, G, Madsen, J, Maget, P, Maggi, C, Maier, H, Mailloux, J, Makowski, M, Manning, C, Mansfield, M, Manso, M, Mantica, P, Mantsinen, M, Maraschek, M, Marchetto, C, Marchitti, M, Mardenfeld, M, Marechal, J, Marinelli, M, Marinoni, A, Marinucci, M, Maerki, J, Marocco, D, Marren, C, Martin, D, Martin, G, Martin, Y, Martin Solis, J, Masaki, K, Masiello, A, Maslov, M, Maszl, C, 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Noble, C, Nocente, M, Nora, M, Nordman, H, Norman, M, Noterdaeme, J, Nowak, S, Nunes, I, Ognissanto, F, O'Gorman, T, Olariu, S, Oleynikov, A, O'Mullane, M, Ongena, J, Orsitto, F, Oswuigwe, O, Ottaviani, M, Oyama, N, Pacella, D, Paget, K, Palazzo, S, Pamela, J, Pamela, S, Panek, R, Pangione, L, Panin, A, Panis, T, Pankin, A, Pantea, A, Parail, V, Parisot, T, Parkin, A, Parsloe, A, Parsons, B, Pasqualotto, R, Pastor, P, Paterson, R, Paul, M, Peach, D, Pearce, R, Pearson, B, Pearson, I, Pedrick, L, Pedrosa, M, Pegourie, B, Pereira, R, Perelli Cippo, E, Pereverzev, G, Perevezentsev, A, Perez von Thun, C, Pericoli Ridolfini, V, Perona, A, Perrot, Y, Peruzzo, S, Peschanyy, S, Petravich, G, Petrizzi, L, Petrov, V, Petrzilka, V, Philipps, V, Piazza, G, Piccolo, F, Pietropaolo, A, Pillon, M, Pinches, S, Pinna, T, Pintsuk, G, Piovesan, P, Pironti, A, Pisano, F, Pitts, R, Plaum, B, Plyusnin, V, Polasik, M, Poli, F, Pomaro, N, Pompilian, O, Poncet, L, Pool, P, Popovichev, S, Porcelli, F, Porfiri, M, Portafaix, C, Pospieszczyk, A, Possnert, G, Prestopino, G, Prior, P, Prokopowicz, R, Proverbio, L, Pugno, R, Puiatti, M, Purahoo, K, Pustovitov, V, Puetterich, T, Puettmann Kneupner, D, Quercia, A, Rachlew, E, Rademaker, R, Rafiq, T, Rainford, M, Ramogida, G, Rantamaeki, K, Rapp, J, Rasmussen, J, Ratta, G, Ravera, G, Reich, M, Reichle, R, Reiser, D, Reiss, R, Reiter, D, Rendell, D, Reux, C, Rewoldt, G, Ribeiro, T, Riccardo, V, Richards, D, Rigollet, F, Rimini, F, Rios, L, Riva, M, Roberts, J, Robins, R, Robinson, D, Robinson, S, Robson, D, Roche, H, Roedig, M, Rodionov, N, Rohde, V, Rolfe, A, Romanelli, M, Romano, A, Romero, J, Ronchi, E, Rosanvallon, S, Roux, C, Rowe, S, Rubel, M, Rubinacci, G, Ruchko, L, Ruiz, M, Ruset, C, Russell, M, Ruth, A, Ryc, L, Rydzy, A, Ryter, F, Rzadkiewicz, J, Saarelma, S, Sabathier, F, Sabot, R, Sadakov, S, Sagar, P, Saibene, G, Saille, A, Saint Laurent, F, Salmi, A, Salomaa, R, Salzedas, F, Samm, U, Sanchez, P, Sanders, S, Sandford, G, Sandland, K, Sandquist, P, Sands, D, Santala, M, Sartori, F, Sartori, R, Sauter, O, Savelyev, A, Savtchkov, A, Scales, S, Scarabosio, A, Schaefer, N, Schlatter, C, Schmidt, V, Schmidt, A, Schmitz, O, Schmuck, S, Schneider, M, Scholz, M, Schoepf, K, Schweer, B, Schweinzer, J, Scott, B, Seki, M, Semeraro, L, Semerok, A, Sergienko, G, Serra, F, Sertoli, M, Shannon, M, Sharapov, S, Shaw, S, Shevelev, A, Sievering, R, Silva, C, Simmons, P, Simonetto, A, Simpson, D, Sipila, S, Sips, A, Sirinelli, A, Sjoestrand, H, Skopintsev, D, Slabkowska, K, Smith, P, Snipes, J, Snoj, L, Snyder, S, Soare, S, Solano, E, Soldatov, S, Soleto, A, Solomon, W, Soltane, C, Sonato, P, Sopplesa, A, Sorrentino, A, Sousa, J, Sowden, C, Sozzi, C, Spaeh, P, Spelzini, T, Spence, J, Spineanu, F, Spuig, P, Staebler, A, Stagg, R, Stamp, M, Stancalie, V, Stangeby, P, Stan Sion, C, Starkey, D, Stead, M, Stephen, A, Stevens, A, Stober, J, Stokes, R, Stork, D, Stoyanov, D, Strachan, J, Strand, P, Stransky, M, Strauss, D, Strintzi, D, Studholme, W, Su Na, Y, Subba, F, Summers, H, Sun, Y, Surdu Bob, C, Surrey, E, Sutton, D, Svensson, J, Swain, D, Syme, B, Symonds, I, Szepesi, T, Szydlowski, A, Tabares, F, Takalo, V, Takenaga, H, Tala, T, Talbot, A, Taliercio, C, Tame, C, Tardini, G, Tardocchi, M, Taroni, L, Telesca, G, Terra, A, Terrington, A, Testa, D, Theis, J, Thomas, J, Thomas, P, Thompson, V, Thomsen, H, Thomser, C, Thyagaraja, A, Tigwell, P, Tiseanu, I, Tivey, R, Todd, J, Todd, T, Tokar, M, Tosti, S, Trabuc, P, Travere, J, Treutterer, W, Trimble, P, Trkov, A, Trukhina, E, Tsalas, M, Tsige Tamirat, H, Tsitrone, E, Tskhakaya, D, Tudisco, O, Tugarinov, S, Turner, M, Turri, G, Tyrrell, S, Umeda, N, Unterberg, B, Urano, H, Urquhart, A, Uytdenhouwen, I, Vaccaro, A, Vadgama, A, Vagliasindi, G, Valcarcel, D, Valisa, M, Vallory, J, Valovic, M, Van Eester, D, van Milligen, B, van Rooij, G, Varandas, C, Vartanian, S, Vdovin, V, Vega, J, Verdoolaege, G, Verger, J, Vermare, L, Verona, C, Versloot, T, Vervier, M, Vicente, J, 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É., Bovert, K. V., Cação, R., Calabró, G., Carannante, G., Coccorese, V., De Arcas, G., De Baar, M. R., De La Cal, E., De La Luna, E., De Pablos, J. L., De Tommasi, G., De Vries, P. C., Del Castillo Negrete, D., Di Pace, L., Durodié, F., Formisano, Alessandro, Gál, K., Galvão, R., Garcia Munoz, M., Goloborod'Ko, V., Gonçalves, B., González De Vicente, S. M., Grünhagen, S., Hallworth Cook, S. P., Hühnerbein, M., Hynönen, V., Jupén, C., Källne, J., Kálvin, S., Köchl, F., Kühnlein, W., Le Guern, F., Lönnroth, J., Märki, J., Martín Solís, J. R., Mattei, Massimiliano, Miano, G., Müller, H. W., O'Gorman, T., O'Mullane, M., Perez Von Thun, C. h., Pironti, A., Pütterich, T. h., Püttmann Kneupner, D., Quercia, A., Rantamäki, K., Rattá, G., Rödig, M., Rubinacci, G., Schöpf, K., Sjöstrand, H., Slabkowska, K., Späh, P., Stäbler, A., Su Na, Y., Tskhakaya Jun, D., Van Milligen, B., Van Rooij, G. J., Xu, G. S., Faculdade de Engenharia, Kamendjea, R., Alarcon, Th., Andersson-Sundén, E., Andrew, P. L., Argouach, A., Balbao, I., Berger-By, G., Bergkvist, T., Coutois, X., David, E., De-Angelis, R., Del-Castillo-Negrete, D., De-Tommasi, G., Deveaux, S., Eich, Th., Erents, S. K., Gatu-Johnson, M., Holmström, K., Kurki-Suonio, T., Lauro Taroni, L., Laxaback, M., Liu, Y. Q., Llewellyn Smith, C., Maviglia, A., Mertens, Ph., Monier-Garbet, P., Moreau, Ph., Norris, C., Noterdaeme, J. -M., Paméla, J., Panis, Th., Parisot, Th., Perez Von Thun, C., Perez Von Thun, Ch., Pericoli-Ridolfini, V., Phillips, V., Pütterich, Th., Püttmann-Kneupner, D., Roux, Ch., Saint-Laurent, F., Schlatter, Ch., Sundelin, P., Surdu-Bob, C., Hompson, V. K., Tsige-Tamirat, H., Tskhakaya, D., Uytdenhoven, I., Versloot, Th., Villedieux, E., Walden, A. D., Paméla, J, and Jet, C

Subjects
Nuclear and High Energy Physics, 52.55.Fa Tokamaks, spherical tokamak, Materials science, Tokamak, Physics and Astronomy (all), Condensed Matter Physics, Física [Ciências exactas e naturais], Cyclotron, law.invention, Bootstrap current, Physical sciences [Natural sciences], law, Physics::Plasma Physics, ITER, divertor, FIS/03 - FISICA DELLA MATERIA, Nuclear and High Energy Physic, Jet (fluid), Safety factor, Divertor, 52.50.Qt Plasma heating by radio-frequency field, Settore FIS/01 - Fisica Sperimentale, magnetic confinement, Magnetic confinement fusion, Física, 52.55.Rk Power exhaust, JET, overview, Settore FIS/07 - Fisica Applicata(Beni Culturali, Ambientali, Biol.e Medicin), Computational physics, Physical sciences, ICR, ICP, helicons, ___, JET, Beta (plasma physics), Atomic physics, tokamaks
Abstract

Since the last IAEA conference, the scientific programme of JET has focused on the qualification of the integrated operating scenarios for ITER and on physics issues essential for the consolidation of design choices and the efficient exploitation of ITER. Particular attention has been given to the characterization of the edge plasma, pedestal energy and edge localized modes (ELMs), and their impact on plasma facing components (PFCs). Various ELM mitigation techniques have been assessed for all ITER operating scenarios using active methods such as resonant magnetic field perturbation, rapid variation of the radial field and pellet pacing. In particular, the amplitude and frequency of type I ELMs have been actively controlled over a wide parameter range (q(95) = 3-4.8, beta(N)

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21. Input-Output Finite-Time Stabilization with Constrained Control Inputs

Author

Alfredo Pironti, G. De Tommasi, Francesco Amato, G. Carannante, Amato, F., Carannante, Giuseppe, DE TOMMASI, Gianmaria, and Pironti, Alfredo

Subjects
State-transition matrix, Input/output, Mathematical optimization, Amplitude, Control theory, Control (management), Stability (learning theory), Linear matrix inequality, Finite time, Differential (infinitesimal), Computer Science::Cryptography and Security, Mathematics
Abstract

In this paper the problem of input-output finite-time stability (IO-FTS) and stabilization of linear time-varying systems is dealt with. The classical definition of IO-FTS is extended to that one of structured IO-FTS, since this allows to incorporate, in the definition of the stabilization problem, some amplitude constraints on the control input variables. A necessary and sufficient condition and a sufficient condition for constrained IO finite-time stabilization are provided in the case of ℒ 2 and ℒ ∞ disturbance inputs, respectively. Such conditions require the existence of a feasible solution to a certain differential linear matrix inequality (DLMI). A numerical example illustrates the effectiveness of the proposed approach.

Published
2012

22. Input-output finite-time stabilization of LTV systems via dynamic output feedback

Author

Alfredo Pironti, G. Carannante, G. De Tommasi, Francesco Amato, Amato, F., Carannante, Giuseppe, DE TOMMASI, Gianmaria, and Pironti, Alfredo

Subjects
Output feedback, Input/output, Mathematical optimization, Control theory, Linear system, Stability (learning theory), Symmetric matrix, Finite time, Differential (infinitesimal), Numerical stability, Mathematics
Abstract

The problem of input-output finite-time stabilization of linear time-varying systems via dynamic output feedback is tackled in this paper. Sufficient conditions are provided in terms of Differential Linear Matrix Inequalities feasibility problems, which can be solved numerically in an efficient way by using off-the-shelf optimization tools, as illustrated by the proposed examples.

Published
2011
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23. Input-output Finite-Time Stabilisation of a class of Hybrid Systems via Static Output Feedback

Author

Francesco Amato, G. Carannante, Gianmaria De Tommasi, Amato, F., Carannante, Giuseppe, and DE TOMMASI, Gianmaria

Subjects
Input/output, Control and Systems Engineering, Control theory, Hybrid system, Linear system, Linear matrix inequality, Trajectory, State (computer science), Bilinear form, Dynamical system, Computer Science Applications, Mathematics
Abstract

This article extends the concept of input–output finite time stability (IO–FTS) to a class of hybrid systems, namely impulsive dynamical linear systems, which are systems that exhibit jumps in the state trajectory. Sufficient conditions are given for the analysis of IO–FTS and for the design of both static output and state feedback controllers, guaranteeing IO–FTS of the closed loop system. In the general case the presented results require to solve feasibility problems involving either linear matrix inequalities or bilinear matrix inequalities, which can be solved numerically in an efficient way by using off-the-shelf optimisation tools, as illustrated by the proposed examples.

Published
2011

24. Input-output Finite-Time Stability of Switching Systems with Uncertainties on the Resetting Times

Author

G. Carannante, Francesco Amato, G. De Tommasi, Amato, F., Carannante, Giuseppe, and DE TOMMASI, Gianmaria

Subjects
Input/output, Control theory, Linear system, State (computer science), Differential (infinitesimal), Linear matrix, Finite time, Stability (probability), Mathematics, Numerical stability
Abstract

The concept of Input-Output Finite Time Stability (IO-FTS) is extended to time-dependent switching linear systems, which are systems with different continuous dynamics and that can exhibit state jumps driven by time. Sufficient conditions are given for the analysis of IO-FTS in the case of certain and uncertain resetting times. The presented results require to solve feasibility problems involving Difference/Differential Linear Matrix Inequalities, which can be solved numerically in an efficient way by using off-the-shelf optimization tools, as illustrated by the proposed example.

Published
2011

25. Finite-Time Stabilization of Switching Linear Systems with Uncertain Resetting Times

Author

G. De Tommasi, G. Carannante, Francesco Amato, Amato, F., Carannante, Giuseppe, and DE TOMMASI, Gianmaria

Subjects
Control theory, Linear system, Jump, Trajectory, State (functional analysis), Classification of discontinuities, Differential (infinitesimal), Stability (probability), Mathematics, Numerical stability
Abstract

In this paper we deal with the finite-time stability analysis and control of switching linear systems, which are linear continuous-time systems with isolated discrete switching events, and whose state can undergo finite jump discontinuities. Moreover, the case in which the time occurrence of the switching events is unknown is considered. Sufficient conditions for finite-time stability and stabilization are provided in terms of feasibility problems involving differential LMIs. Numerical examples are provided to better illustrate the proposed approach.

Published
2011

26. A flexible architecture for the rapid prototyping of control systems in fusion experiments

Author

M. Banfi, Alfredo Pironti, G. Carannante, A. Mandelli, G. De Tommasi, G. Ambrosino, Ambrosino, Giuseppe, Carannante, Giuseppe, DE TOMMASI, Gianmaria, Pironti, Alfredo, M., Banfi, and A., Mandelli

Subjects
Rapid prototyping, Engineering, Fusion, Tokamak, business.industry, System safety, Control engineering, Fusion power, law.invention, law, Control system, Model-based design, Systems engineering, Architecture, business
Abstract

When developing critical control system it is appropriate to resort to modeling, simulation and rapid prototyping tools since the early design phases. A design approach based on the rapid prototyping of the plant model can be effectively adopted when non-conventional or new control systems have to be developed, or when the required performance are very demanding. Furthermore, such an approach is the only one viable when the plant is not available yet and/or the testing on-site is very risky, which is usually the case for fusion experimental reactors (tokamaks). This paper presents a flexible architecture for the model-based design of control systems, which permits to perform rapid prototyping and hardware-in-the-loop validation. The proposed architecture has been recently adopted for the rapid prototyping of the Central Safety System for Nuclear Risk of the ITER tokamak.

Published
2010

27. Modeling Tools for the ITER Central Interlock System

Author

L. Scibile, A.Vergara Fernández, G. Carannante, Giuseppe Ambrosino, G. De Tommasi, A., Vergara Fernández, Ambrosino, Giuseppe, Carannante, Giuseppe, DE TOMMASI, Gianmaria, and L., Scibile

Subjects
Tokamak, ComputingMilieux_THECOMPUTINGPROFESSION, business.industry, Computer science, Mechanical Engineering, law.invention, Modeling and simulation, Test case, Software, Nuclear Energy and Engineering, law, Control system, Model-based design, ComputingMilieux_COMPUTERSANDEDUCATION, Systems engineering, General Materials Science, Interlock, business, Civil and Structural Engineering
Abstract

The ITER Central Interlock System (CIS) executes manual and automatic interlocks in order to protect tokamak’s investments. When a new control system, such as the CIS, has to be deployed, it is strongly recommended to use modeling and simulation tools, in order to test and validate the control logics. This paper presents the software tools that have been recently developed to perform the modeling of the ITER CIS. In particular, the architectures of both a CIS oriented plant simulator and of a CIS logical prototype are presented, together with the simulation of two test cases.

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