48 results on '"AMBROSINO, GIUSEPPE"'
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2. Custom-Made Implants in Ankle Bone Loss: A Retrospective Assessment of Reconstruction/Arthrodesis in Sequelae of Septic Non-Union of the Tibial Pilon
- Author
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Caravelli, Silvio, primary, Ambrosino, Giuseppe, additional, Vocale, Emanuele, additional, Di Ponte, Marco, additional, Puccetti, Giulia, additional, Perisano, Carlo, additional, Greco, Tommaso, additional, Rinaldi, Vito Gaetano, additional, Marcheggiani Muccioli, Giulio Maria, additional, Zaffagnini, Stefano, additional, and Mosca, Massimiliano, additional
- Published
- 2022
- Full Text
- View/download PDF
3. The Use of 3D-Printed Custom-Made Implants as an Attractive Potential Alternative to the Treatment of Segmental Bone Loss in Foot and Ankle
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Caravelli, Silvio, primary, Ambrosino, Giuseppe, additional, Grassi, Alberto, additional, Zaffagnini, Stefano, additional, and Mosca, Massimiliano, additional
- Published
- 2022
- Full Text
- View/download PDF
4. First plasma operation of the enhanced JET vertical stabilisation system
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Rimini, Fernanda G., Crisanti, Flavio, Albanese, Raffaele, Ambrosino, Giuseppe, Ariola, Marco, Artaserse, Giovanni, Bellizio, Teresa, Coccorese, Vincenzo, De Tommasi, Gianmaria, De Vries, Peter, Lomas, Peter J., Maviglia, Francesco, Neto, Andre, Nunes, Isabel, Pironti, Alfredo, Ramogida, Giuseppe, Sartori, Filippo, Shaw, Stephen R., Tsalas, Maximos, Vitelli, Riccardo, and Zabeo, Luca
- Published
- 2011
- Full Text
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5. Design of the plasma position and shape control in the ITER tokamak using in-vessel coils
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Ambrosino, Giuseppe, Ariola, Marco, De Tommasi, Gianmaria, Pironti, Alfredo, and Portone, Alfredo
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Business ,Chemistry ,Electronics ,Electronics and electrical industries - Abstract
The International Thermonuclear Experimental Reactor (ITER) is the next step toward the realization of electricity-producing fusion power plants, and it is planned to be in operation in 2016. ITER has been designed so as to reach the plasma burning condition and to operate with high-elongated unstable plasmas. However, due to the constraints that affect the machine realization, these open-loop unstable high-performance plasmas can hardly be stabilized using the poloidal field coils placed outside the tokamak vessel. For this reason, during the ITER design review phase, it has been proposed to investigate the possibility of using in-vessel coils in order to improve the best achievable performance of the vertical stabilization (VS) system. This paper proposes a new approach for the plasma current, position, and shape control design in the presence of in-vessel coils. Two control loops are designed: a first loop that guarantees the VS driving the voltage applied to in-vessel coils, and a second loop that controls the plasma current and up to 32 geometrical shape descriptors as close as possible to the reference values. The performance of the proposed control system is shown by means of simulations of some cases of interest. Index Terms--Plasma shape control, plasma vertical stabilization (VS), tokamaks control.
- Published
- 2009
6. Plasma strike-point sweeping on JET tokamak with the eXtreme shape controller
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Ambrosino, Giuseppe, Ariola, Marco, De Tommasi, Gianmaria, Pironti, Alfredo, Sartori, Filippo, Joffrin, Emmanuel, and Villone, Fabio
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Algorithms -- Usage ,Tokamaks -- Research ,Control systems -- Design and construction ,Plasma (Ionized gases) -- Properties ,Algorithm ,Business ,Chemistry ,Electronics ,Electronics and electrical industries - Abstract
The high-energy ionized particles collected by the divertor structures in a tokamak reactor cause a localized thermal load around the strike-points, which are the intersections of the separatrix with the divertor tiles. To spread on a larger region this thermal load, it is convenient to resort to a sweeping, i.e., a periodical movement of the strike-points. This paper introduces the new model-based sweeping algorithm recently implemented on the Joint European Torus tokamak, within the eXtreme Shape Controller architecture. Index Terms--Plasma-shape control, plasma strike-point sweeping, tokamaks control.
- Published
- 2008
7. XSC Tools: a software suite for tokamak plasma shape control design and validation
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De Tommasi, Gianmaria, Albanese, Raffaele, Ambrosino, Giuseppe, Ariola, Marco, Mattei, Massimiliano, Pironti, Alfredo, Sartori, Filippo, and Villone, Fabio
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CAE software -- Product development ,Control systems -- Technology application ,Control systems -- Design and construction ,CAE software ,Technology application ,Business ,Chemistry ,Electronics ,Electronics and electrical industries ,XSC Tools (CAE software) -- Product development - Abstract
This paper describes a set of graphic tools for the design and validation of the new plasma shape controller [eXtreme Shape Controller (XSC)], which has been recently implemented at the Joint European Torus tokamak. The XSC enables operation with high elongation and high triangularity plasmas. The software suite, which is called XSC Tools, has been developed to automate the design procedure of the XSC. These tools make use of graphic user interfaces to allow the nonspecialist users to prepare for new operative scenarios, without the help from modeling and control specialists. Once a new controller is generated, all its parameters are saved into a text file, which is used to perform the validation of the scenario via simulations. The same file is then loaded by the real-time code running on the plant, without any further processing. This feature guarantees that the controller, which is running on the plant, is exactly the same one validated through simulations. An additional effort has been made in order to make the XSC Tools machine independent, i.e., to enable their use on the different tokamaks. Index Terms--Control-system validation, software tools, tokamak control.
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- 2007
8. Management of the ITER PCS Design Using a System-Engineering Approach
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Cinque, Marcello, primary, De Tommasi, Gianmaria, additional, De Vries, Peter C., additional, Fucci, Francesco, additional, Zabeo, Luca, additional, Ambrosino, Giuseppe, additional, Bremond, Sylvain, additional, Gomez, Igor, additional, Karkinsky, Damien, additional, Mattei, Massimiliano, additional, Nouailletas, Remy, additional, Pironti, Alfredo, additional, Rimini, Fernanda G., additional, Snipes, Joseph A., additional, Treutterer, Wolfgang, additional, and Walker, Micheal L., additional
- Published
- 2020
- Full Text
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9. Optimization of the power supply demand for plasma shape control in a Tokamak
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Albanese, Raffaele, Ambrosino, Giuseppe, Pironti, Alfredo, Fresa, Raffaele, and Portone, Alfredo
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Tokamaks -- Research ,Plasma (Ionized gases) -- Research ,Finite element method -- Usage ,Electromagnetic fields -- Research ,Business ,Electronics ,Electronics and electrical industries - Abstract
We focus on the estimation of the minimum poloidal field coil voltages for the plasma shape control in a tokamak. For given coil locations and for a class of disturbances we propose a procedure for the evaluation of the minimum voltages needed to guarantee that the plasma boundary displacement remains within specified limits. The impact of this problem on the minimization of the power supply cost is discussed for the case of the International Thermonuclear Experimental Reactor (ITER). Index terms - Optimization, plasma control, power supplies, tokamaks, electromagnetic fields, finite element methods.
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- 1998
10. Modelli di traduzione e transfer nella storia del diritto internazionale: alcune osservazioni preliminari
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Ambrosino, Giuseppe, De Nardi, Loris, Ambrosino, G ( Giuseppe ), De Nardi, L ( Loris ), Fiocchi Malaspina, Elisabetta, Ambrosino, Giuseppe, De Nardi, Loris, Ambrosino, G ( Giuseppe ), De Nardi, L ( Loris ), and Fiocchi Malaspina, Elisabetta
- Published
- 2015
11. Improving the performance of the JET Shape Controller
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Maviglia, Francesco, primary, Ariola, Marco, additional, De Tommasi, Gianmaria, additional, Lomas, Peter J., additional, Pironti, Alfredo, additional, Rimini, Fernanda G., additional, Albanese, Raffaele, additional, and Ambrosino, Giuseppe, additional
- Published
- 2015
- Full Text
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12. SEISMIC PERFORMANCE OF DUAL - STEEL ECCENTRIC - BRACED FRAMES IN SIMPLE AND DUAL CONFIGURATION
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La Manna Ambrosino, Giuseppe and La Manna Ambrosino, Giuseppe
- Abstract
The work summarized in this thesis is devoted to investigate the seismic response of eccentric braced frames in simple and dual configuration (namely structural systems made of moment-resisting frames in parallel with braced frames) designed with the combined use of high strength steel (HSS) and of mild carbon steel (MCS). In particular, the first part of the thesis concerns the issues related to both design and verification check. In the second part, a wide and comprehensive parametric study is described and discussed in order to characterize the performance of an ensemble of reference buildings. To this aim, several design parameters are examined, such as: the number of storeys the length of bays, the grade of steel, the steel column sections and the soil foundation. The results from both nonlinear static and incremental dynamic analyses are presented and discussed thus allowing to draft novel design to improve the seismic performance of the examined structural typology. In the third part of the thesis, on the basis of the numerical results obtained from the parametric study, a preparatory study addressed to design the experimental setup for a real scale steel building made of dual Eccentric braced frame having removable links. The aim is to investigate the recentering capacity that the moment resisting spans may provide.
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- 2014
13. A Software Tool for the Design of the Current Limit Avoidance System at the JET Tokamak
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De Tommasi, Gianmaria, primary, Ambrosino, Giuseppe, additional, Galeani, Sergio, additional, Maviglia, Francesco, additional, Neto, André Cabrita, additional, Pironti, Alfredo, additional, Varano, Gianluca, additional, Vitelli, Riccardo, additional, and Zaccarian, Luca, additional
- Published
- 2012
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14. Rapid Prototyping of Safety System for Nuclear Risks of the ITER Tokamak
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Ambrosino, Giuseppe, primary, Banfi, Massimiliano, additional, Carannante, Giuseppe, additional, De Tommasi, Gianmaria, additional, Mandelli, Augusto, additional, Pironti, Alfredo, additional, and Scibile, Luigi, additional
- Published
- 2010
- Full Text
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15. Overview of JET results
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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, Matilal, A, Mattei, M, Matthews, G, Maviglia, F, May, C, Mayer, M, Mayoral, M, Mazon, D, Mazzotta, C, Mazzucato, E, Mccarthy, P, Mcclements, K, Mccormick, K, Mccullen, P, Mccune, D, Mcdonald, D, Mcgregor, R, Mckivitt, J, Meakins, A, Medina, F, Meigs, A, Menard, M, Meneses, L, Menmuir, S, Merrigan, I, Mertens, P, Messiaen, A, Meyer, H, Miano, G, Miele, M, Migliucci, P, Miller, A, Mills, S, Milnes, 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, Moreira, L, Morgan, A, Morgan, P, Morlock, C, Moro, A, Morris, A, Mort, G, Mrozek, C, Mueck, A, Mueller, H, Murakami, M, Murari, A, Mustata, I, Nabais, F, Nardon, E, Nash, G, Naulin, V, Nave, M, Nazikian, R, Nedzelski, I, Negus, C, Neilson, J, Neto, A, Neu, R, Neubauer, O, Newbert, G, Newman, M, Nicholls, K, Nicolai, A, Nicolas, L, Nieckchen, P, Nielsen, P, Nielsen, A, Nielsen, S, Nielson, G, Nieto, J, Nightingale, M, 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, Villari, S, Villedieu, E, Villone, F, Vince, J, Vine, G, Viola, B, Vitale, E, Vitelli, R, Vlad, M, Voitsekhovitch, I, Vrancken, M, Vulliez, K, Waldon, C, Walker, M, Walsh, M, Waterhouse, J, Watkins, M, Watson, M, Wauters, T, Way, M, Webb, C, Weiland, J, Weisen, H, Weiszflog, M, Wenninger, R, West, A, Weulersse, J, Weyssow, B, Wheatley, M, Whiteford, A, Whitehead, A, Whitehurst, A, Widdowson, A, Wieggers, R, Wiegmann, C, Wiesen, S, Wilson, A, Wilson, D, Wilson, H, Wischmeier, M, Witts, D, Wolf, R, Wolowski, J, Woscov, P, Wright, G, Wright, J, Xu, G, Yavorskij, V, Yerashok, V, Yorkshades, J, Young, C, Young, D, Young, I, Yuhong, X, Zabeo, L, Zabolotsky, A, Zaccarian, L, Zagorski, R, Zaitsev, F, Zajac, S, Zakharov, L, Zanino, R, Zaroschi, V, Zastrow, K, Zatz, I, Zefran, B, Zeidner, W, Zerbini, M, Zhang, T, Zhu, Y, Zilli, E, Zimmermann, O, Zoita, V, Zoletnik, S, Zwingman, W, Correction Romanelli, F, Albanese, R., Ambrosino, G., Andersson Sundén, E., Bécoulet, M., Bellizio, T., Belonohy, 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
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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)
16. Radon Exhalation Rate: A Metrological Approach for Radiation Protection.
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Ambrosino, Fabrizio, La Verde, Giuseppe, Gagliardo, Gaetano, Mottareale, Rocco, Della Peruta, Giuseppe, Imparato, Chiara, D'Elia, Andrea, and Pugliese, Mariagabriella
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RADON ,RADIATION protection ,RADON isotopes ,NOBLE gases ,RADIOACTIVE decay ,CONSTRUCTION materials ,INDOOR air quality - Abstract
Radon, a radioactive inert gas that comes from the decay of naturally occurring radioactive species, poses a substantial health risk due to its involvement in lung cancer carcinogenesis. This work proposes a metrological approach for determining radon exhalation rates from diverse building materials. This methodology employs an electrostatic collection chamber for alpha spectrometry of radon isotopic decay products. Experimental evaluations were conducted particularly focusing on volcanic gray tuff from Sant'Agata de' Goti (Campania region, Italy), a material commonly utilized in construction, to assess radon exhalation rates. The study aligns with Legislative Decree 101/2020, a transposition of European Directive 59/2013/Euratom, highlighting the need to identify materials with a high risk of radon exhalation. Moreover, this work supports the goals of the Italian National Radon Action Plan related to the aforementioned decree, aiming to develop methodologies for estimating radon exhalation rates from building materials and improving radioprotection practices. [ABSTRACT FROM AUTHOR]
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- 2024
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17. Tirzepatide prevents neurodegeneration through multiple molecular pathways.
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Fontanella, Rosaria Anna, Ghosh, Puja, Pesapane, Ada, Taktaz, Fatemeh, Puocci, Armando, Franzese, Martina, Feliciano, Maria Federica, Tortorella, Giovanni, Scisciola, Lucia, Sommella, Eduardo, Ambrosino, Concetta, Paolisso, Giuseppe, and Barbieri, Michelangela
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GLUCAGON-like peptide 1 ,TYPE 2 diabetes ,MEMORY disorders ,NEURODEGENERATION ,DISEASE risk factors ,VERBAL learning - Abstract
Background: Several evidence demonstrated that glucagon-like peptide 1 receptor agonists (GLP1-RAs) reduce the risk of dementia in type 2 diabetes patients by improving memory, learning, and overcoming cognitive impairment. In this study, we elucidated the molecular processes underlying the protective effect of Tirzepatide (TIR), a dual glucose-dependent insulinotropic polypeptide receptor agonist (GIP-RA)/ GLP-1RA, against learning and memory disorders. Methods: We investigated the effects of TIR on markers of neuronal growth (CREB and BDNF), apoptosis (BAX/Bcl2 ratio) differentiation (pAkt, MAP2, GAP43, and AGBL4), and insulin resistance (GLUT1, GLUT4, GLUT3 and SORBS1) in a neuroblastoma cell line (SHSY5Y) exposed to normal and high glucose concentration. The potential role on DNA methylation of genes involved in neuroprotection and epigenetic modulators of neuronal growth (miRNA 34a), apoptosis (miRNA 212), and differentiation (miRNA 29c) was also investigated. The cell proliferation was detected by measuring Ki-67 through flow cytometry. The data were analysed by SPSS IBM Version 23 or GraphPad Prism 7.0 software and expressed as the means ± SEM. Differences between the mean values were considered significant at a p-value of < 0.05. GraphPad Prism software was used for drawing figures. Results: For the first time, it was highlighted: (a) the role of TIR in the activation of the pAkt/CREB/BDNF pathway and the downstream signaling cascade; (b) TIR efficacy in neuroprotection; (c) TIR counteracting of hyperglycemia and insulin resistance-related effects at the neuronal level. Conclusions: We demonstrated that TIR can ameliorate high glucose-induced neurodegeneration and overcome neuronal insulin resistance. Thus, this study provides new insight into the potential role of TIR in improving diabetes-related neuropathy. [ABSTRACT FROM AUTHOR]
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- 2024
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18. The Lack of STING Impairs the MHC-I Dependent Antigen Presentation and JAK/STAT Signaling in Murine Macrophages.
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Caiazza, Carmen, Brusco, Teresa, D'Alessio, Federica, D'Agostino, Massimo, Avagliano, Angelica, Arcucci, Alessandro, Ambrosino, Concetta, Fiume, Giuseppe, and Mallardo, Massimo
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ANTIGEN presentation ,VIRAL DNA ,IMMUNE response ,MACROPHAGES ,PEPTIDES ,T cell receptors - Abstract
STING is a transmembrane ER resident protein that was initially described as a regulator of innate immune response triggered by viral DNA and later found to be involved in a broader range of immune processes. Here, we assessed its role in the antigen presentation by generating a STING KO macrophage cell line. In the absence of STING, we observed an impaired OVA-derived SIINFEKL peptide presentation together with a decreased level of MHC-I complex on the plasma membrane, likely due to a decreased mRNA expression of β2 m light chain as no relevant alterations of the peptide-loading complex (TAPs) were found. Moreover, JAK-STAT signaling resulted in impaired STING KO cells following OVA and LPS treatments, suggesting a dampened activation of immune response. Our data revealed a new molecular role of STING in immune mechanisms that could elucidate its role in the pathogenesis of autoimmune disorders and cancer. [ABSTRACT FROM AUTHOR]
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- 2022
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19. The Use of 3D-Printed Custom-Made Implants as an Attractive Potential Alternative to the Treatment of Segmental Bone Loss in Foot and Ankle
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Silvio Caravelli, Giuseppe Ambrosino, Alberto Grassi, Stefano Zaffagnini, Massimiliano Mosca, Caravelli, Silvio, Ambrosino, Giuseppe, Grassi, Alberto, Zaffagnini, Stefano, and Mosca, Massimiliano
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General Medicine ,FOOT,BONE - Abstract
The treatment of segmental tibial and ankle bone loss after radical surgery for chronic osteomyelitis is one of the most challenging problems encountered by orthopaedic surgeons [...]
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- 2022
20. Custom-Made Implants in Ankle Bone Loss: A Retrospective Assessment of Reconstruction/Arthrodesis in Sequelae of Septic Non-Union of the Tibial Pilon
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Silvio Caravelli, Giuseppe Ambrosino, Emanuele Vocale, Marco Di Ponte, Giulia Puccetti, Carlo Perisano, Tommaso Greco, Vito Gaetano Rinaldi, Giulio Maria Marcheggiani Muccioli, Stefano Zaffagnini, Massimiliano Mosca, Caravelli, Silvio, Ambrosino, Giuseppe, Vocale, Emanuele, Di Ponte, Marco, Puccetti, Giulia, Perisano, Carlo, Greco, Tommaso, Rinaldi, Vito Gaetano, Marcheggiani Muccioli, Giulio Maria, Zaffagnini, Stefano, and Mosca, Massimiliano
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Arthrodesis ,Osteomyelitis ,General Medicine ,3D printing ,Ankle Fractures ,arthrodesi ,Tibial Fractures ,ankle ,Disease Progression ,custom-made ,Humans ,osteomyeliti ,osteomyelitis ,tibia ,arthrodesis ,Retrospective Studies - Abstract
Background and Objectives: Treating segmental tibial and ankle bone loss after radical surgery for chronic osteomyelitis is one of the most challenging problems encountered by orthopaedic surgeons. Open tibia and ankle fractures occur with an incidence of 3.4 per 100,000 and 1.6 per 100,000, respectively, and there is a high propensity of developing fracture-related infection with associated chronic osteomyelitis in patients. Segmental tibial and ankle bone loss have recently received new and improved treatments. Materials and Methods: Above all, 3D printing allows for the customization of implants based on the anatomy of each patient, using a personalized process through the layer-by-layer deposition of materials. Results: This article presents different cases from the authors’ experience. Specifically, four patients suffered tibia and ankle fractures and after radical surgery for chronic osteomyelitis combined with high-performance antibiotic therapy underwent ankle reconstruction/arthrodesis with custom-made tibial spacers. Conclusions: Thanks to 3D-printed patient-specific devices, it is possible to perform surgical procedures that, for anatomical reasons, would have been impossible otherwise. Moreover, an improvement in overall functionality and an important reduction in pain were shown in the last follow-up in all patients.
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- 2022
21. Management of the ITER PCS Design Using a System-Engineering Approach
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Alfredo Pironti, Joseph Snipes, Rémy Nouailletas, Giuseppe Ambrosino, L. Zabeo, Fernanda G. Rimini, Damien Karkinsky, Igor Gomez, Sylvain Brémond, Francesco Fucci, W. Treutterer, Massimiliano Mattei, Gianmaria De Tommasi, Micheal L. Walker, Marcello Cinque, Peter De Vries, Cinque, Marcello, De Tommasi, Gianmaria, De Vries, Peter C., Fucci, Francesco, Zabeo, Luca, Ambrosino, Giuseppe, Bremond, Sylvain, Gomez, Igor, Karkinsky, Damien, Mattei, Massimiliano, Nouailletas, Remy, Pironti, Alfredo, Rimini, Fernanda G., Snipes, Joseph A., Treutterer, Wolfgang, and Walker, Micheal L.
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Structure (mathematical logic) ,Requirements management ,Nuclear and High Energy Physics ,Tokamak ,Computer science ,Process (engineering) ,Enterprise architecture ,Condensed Matter Physics ,01 natural sciences ,010305 fluids & plasmas ,law.invention ,Systems Modeling Language ,law ,0103 physical sciences ,Systems engineering ,Actuator ,Verification and validation - Abstract
The plasma control system (PCS) in a tokamak device is in charge of controlling the evolution of plasma parameters according to prescribed models against uncertainties and disturbances. The PCS accomplishes its mission by receiving data from the diagnostics and by computing in real-time the commands to the actuators that affect the plasma behavior. The design of the ITER PCS includes many different aspects, which are not limited to the design of control algorithms, including the definition of the verification and validation tests for various components and commissioning procedures. Moreover, contributions come from different parties that adopt heterogeneous sources. To homogenize these contributions and to keep track of the PCS life-cycle throughout various design stages, a specific system-engineering approach has been adopted on top of the standard ITER life-cycle and the requirement management process. Such an approach relies on a database (DB) implemented using Enterprise Architect that allows modeling various aspects of the PCS design using SysML. This article gives an overview of the adopted approach and describes the structure and the current content of the PCS DB.
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- 2020
22. Authors Index / Index des auteursVolume 46, 2003.
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GENOMES - Abstract
The table of contents for the December 1, 2009 issue of "Genome" is presented.
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- 2009
23. Relationships of Campanian olive cultivars: comparative analysis of molecular and phenotypic data.
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Corrado, Giandomenico, La Mura, Maurizio, Ambrosino, Orsola, Pugliano, Giuseppe, Varricchio, Paola, and Rao, Rosa
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PLANT morphology ,OLIVE ,OLIVE oil ,GENETIC markers ,PLANT breeding ,GENETIC polymorphisms - Abstract
Copyright of Genome is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2009
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24. Implementation strategy for the ITER plasma control system
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Giuseppe Ambrosino, Massimiliano Mattei, G. De Tommasi, W. Treutterer, B. Bauvir, D.A. Humphreys, Joseph Snipes, Gerhard Raupp, A.V. Stephen, A. Winter, M.L. Walker, L. Zabeo, Andre Neto, Winter, A, Ambrosino, G., Bauvir, B., De Tommasi, G., Humphreys, D. A., Mattei, Massimiliano, Neto, A., Raupp, G., Snipes, J. A., Stephen, A. V., Treutterer, W., Walker, M. L., Zabeo, L., Winter, A., Ambrosino, Giuseppe, DE TOMMASI, Gianmaria, Mattei, M., and Snipes, J.
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Scope (project management) ,business.industry ,Computer science ,Event (computing) ,Mechanical Engineering ,Exception handling ,Control (management) ,Context (language use) ,Plasma control ,Automation ,Nuclear Energy and Engineering ,ITER ,Control system ,Systems engineering ,Nuclear fusion ,General Materials Science ,Materials Science (all) ,Orchestration (computing) ,business ,Civil and Structural Engineering - Abstract
This paper gives an overview of the scope and context of the CODAC high-level real-time applications (Supervision and Plasma Control) and presents the strategy and current state of design of the tools to support the implementation. A real-time framework, which is currently under development with strong support of the worldwide fusion community will not only support the implementation of plasma control strategies with the extensive exception handling and forecasting functionality foreseen for ITER, but also integrated commissioning, orchestration and supervision as well as the real-time needs of ITER plant system developers. A second cornerstone in the implementation strategy is the development of a powerful simulation environment (Plasma Control System Simulation Platform - PCSSP) to design and verify control strategies, event handling and orchestration and automation. The development of PCSSP is currently under contract and this paper will also give an overview of its current state of development. (C) 2015 ITER Organization. Published by Elsevier B.V. All rights reserved.
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- 2015
25. Concept, prototyping and application of a tensioning system for FRP ties into masonry structures
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Giuseppe Ambrosino, Alessandro Mauro, Domenico Brigante, Antonio Formisano, La Manna Ambrosino, Giuseppe, Brigante, Domenico, Mauro, Alessandro, and Formisano, Antonio
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Engineering ,FRP, tie, tensioning system, structural reinforcement, masonry structures ,business.industry ,Mechanical Engineering ,020101 civil engineering ,02 engineering and technology ,Structural engineering ,Masonry ,Fibre-reinforced plastic ,021001 nanoscience & nanotechnology ,0201 civil engineering ,Mechanics of Materials ,General Materials Science ,0210 nano-technology ,business - Abstract
The present paper deals with concept, prototyping and application of a tensioning system for FRP ties into masonry structures. The proposed system, based on the use of FRP strands instead of traditional steel ties, has the aim to produce a compression stress state on masonry walls where it is applied. Given the objective difficulty in tensioning a FRP strand, it was necessary to both characterize and prototype a suitable connection system between the strand and the pulling system. The experimental phase concerned both the manufacturing of the pulling system and the study of used materials, as well as the characterization of the impregnation technology of FRP ties. The above described system has been produced and used in the framework of the structural retrofitting of the “Real Albergo dei Poveri” building in Naples.
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- 2017
26. Preparation for the operation of ITER: EU study on the plasma control system
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Gustavo Granucci, Y. Gribov, F. Koechl, Giuseppe Ambrosino, Massimiliano Mattei, L. Zabeo, R. Sartori, D. Ricci, Lorenzo Figini, G. Saibene, Mario Cavinato, Alfredo Pironti, Vassili Parail, Cavinato, M., Ambrosino, Giuseppe, Figini, L., Granucci, G., Gribov, Y., Koechl, F., Mattei, M., Parail, V., Pironti, Alfredo, Ricci, D., Saibene, G., Sartori, R., Zabeo, L., Cavinato, M, Ambrosino, G., Mattei, Massimiliano, and Pironti, A.
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Tokamak control ,Computer science ,TOKAMAKS ,Mechanical Engineering ,Magnetic confinement fusion ,Control engineering ,ITER scenario ,ITER scenarios ,Power (physics) ,Pulse (physics) ,Controllability ,Nuclear Energy and Engineering ,Plasma Control ,Control theory ,Component (UML) ,Control system ,General Materials Science ,Materials Science (all) ,Scenario optimization ,Civil and Structural Engineering - Abstract
In view of the preparation for the operation of the ITER tokamak it is necessary to develop the plasmascenarios taking into account all engineering constraints coming from the plant and including a realisticcontrol system. It is important to consider that, due to the high energy of ITER plasmas, much morestringent requirements are posed on the control of transients in order to avoid machine damage.Several activities are performed in the EU focusing on one side on the scenario optimization from aphysics point of view and on the other side on the design and modeling of a realistic plasma controlsystem driving the plasma configuration throughout the whole pulse and suitable for implementationon a real machine.The issues related to the computation of the control feed-forward component are addressed. In par-ticular, the possibility to trigger a feed-forward component to solve controllability problems arising inthe transitions from plasma L to H and H to L modes is studied in detail with the support of linear andnon-linear simulations.A control strategy is designed and tested on non-linear simulations of the whole pulse, including linearand non-linear effects due to controller switching, plasma shape reconstruction and power supplies.The paper reports on the results of the studies performed and discuss the proposed design of the plasmacontrol system.© 2014 Published by Elsevier B.V.
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- 2014
27. A simulation environment for ITER PCS development
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Giuseppe Ambrosino, M.L. Walker, G. De Tommasi, David Humphreys, G. Neu, Gerhard Raupp, W. Treutterer, A. Winter, Massimiliano Mattei, Walker, M. L., Ambrosino, Giuseppe, DE TOMMASI, Gianmaria, Humphreys, D. A., Mattei, M., Neu, G., Raupp, G., Treutterer, W., Winter, A., Walker, M. L, Ambrosino, G., De Tommasi, G., and Mattei, Massimiliano
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Plasma control system ,Computer science ,Mechanical Engineering ,Control (management) ,Exception handling ,Schedule (project management) ,Task (project management) ,System requirements ,Nuclear Energy and Engineering ,Architecture ,Systems engineering ,General Materials Science ,Materials Science (all) ,Robust control ,Control logic ,Actuator ,Simulation ,Civil and Structural Engineering - Abstract
A simulation environment known as the Plasma Control System Simulation Platform (PCSSP), specifically designed to support development of the ITER Plasma Control System (PCS), is currently under construction by an international team encompassing a cross-section of expertise in simulation and exception handling for plasma control. The proposed design addresses the challenging requirements of supporting the PCS design. This paper provides an overview of the PCSSP project and a discussion of some of the major features of its design. Plasma control for the ITER tokamak will be significantly more challenging than for existing fusion devices. An order of magnitude greater performance (e.g. [1] , [2] ) is needed for some types of control, which together with limited actuator authority, implies that optimized individual controllers and nonlinear saturation logic are required. At the same time, consequences of control failure are significantly more severe, which implies a conflicting requirement for robust control. It also implies a requirement for comprehensive and robust exception handling. Coordinated control of multiple competing objectives with significant interactions, together with many shared uses of actuators to control multiple variables, implies that highly integrated control logic and shared actuator management will be required. It remains a challenge for the integrated technologies to simultaneously address these multiple and often competing requirements to be demonstrated on existing fusion devices and adapted for ITER in time to support its operational schedule. We describe ways in which the PCSSP will help address these challenges to support design of both the ITER PCS itself and the algorithms that will be implemented therein, and at the same time greatly reduce the cost of that development. We summarize the current status of the PCSSP design task, including system requirements and preliminary design documents already delivered as well as features of the ongoing detailed architectural design. The methods being incorporated in the detailed design are based on prior experience with control simulation environments in fusion and on standard practices prevalent in development of control-intensive industrial product designs.
- Published
- 2014
28. Optimal number and position of the magnetic sensors for plasma shape identification in ITER
- Author
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Alfredo Pironti, George Vayakis, Giuseppe Ambrosino, Marco Ariola, S. Arshad, Raffaele Albanese, Ariola, Marco, Pironti, Alfredo, Albanese, Raffaele, Ambrosino, Giuseppe, Arshad, Shakeib, and Vayakis, George
- Subjects
Multidisciplinary ,Tokamak ,Computer science ,Plasma ,Inverse problem ,law.invention ,Magnetic field ,Identification (information) ,Physics::Plasma Physics ,law ,Position (vector) ,Redundancy (engineering) ,Linear combination ,Algorithm - Abstract
Position and number of the magnetic sensors affect the accuracy of the plasma shape identification algorithms. These algorithms usually solve an inverse problem based on the solution of the Grad-Shafranov equilibrium equation, and they need as input a certain number of magnetic field and flux measurements in points located around the plasma. The scope of this paper is to investigate on the problem of assessing the minimum number of magnetic sensors that are necessary for the solution of the plasma shape identification in a tokamak machine. In particular, with reference to the ITER inner vessel magnetic diagnostic system, it is shown that, adopting a heuristic procedure, the available measurements are divided in two subsets, where the measurements in the first subset can be reconstructed by means of suitable linear combinations of measurements in the second subset. In this way, it is possible to evaluate the level of the redundancy of the ITER inner vessel diagnostic system and to outline a suitable fault management system.
- Published
- 2016
29. Performance assessment of a dynamic current allocator for the JET eXtreme Shape Controller
- Author
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Giuseppe Ambrosino, G. Varano, Gianmaria De Tommasi, Sergio Galeani, Luca Zaccarian, Alfredo Pironti, G., Varano, Ambrosino, Giuseppe, DE TOMMASI, Gianmaria, S., Galeani, Pironti, Alfredo, and L., Zaccarian
- Subjects
Plasma shape control ,Computer science ,Mechanical Engineering ,Input allocation ,Shape control ,Preliminary analysis ,Allocator ,Settore ING-INF/04 - Automatica ,Nuclear Energy and Engineering ,JET ,Control theory ,Poloidal field ,General Materials Science ,Civil and Structural Engineering - Abstract
This paper reports on a recently proposed dynamic allocation technique that can be effectively adopted to handle the current saturations of the Poloidal Field coils with the eXtreme Shape Controller. The proposed approach allows to automatically relax the plasma shape regulation when the reference shape requires current levels out of the available ranges, finding in real-time an optimal trade-off between shape control precision and currents saturation avoidance. In this paper the results attained during preliminary analysis are presented, showing the advantage arising from the use of the dynamic allocator, versus the bare use of the eXtreme Shape Controller.
- Published
- 2011
30. Rapid Prototyping of Safety System for Nuclear Risks of the ITER Tokamak
- Author
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Massimiliano Banfi, Alfredo Pironti, Giuseppe Ambrosino, Augusto Mandelli, Luigi Scibile, G. Carannante, Gianmaria De Tommasi, Ambrosino, Giuseppe, Banfi, M., Carannante, Giuseppe, DE TOMMASI, Gianmaria, Mandelli, A., Pironti, Alfredo, and Scibile, L.
- Subjects
Rapid prototyping ,Hardware architecture ,Nuclear and High Energy Physics ,Computer science ,Magnetic confinement fusion ,model-based design ,ComputerApplications_COMPUTERSINOTHERSYSTEMS ,Cascading Style Sheets ,Software prototyping ,Condensed Matter Physics ,Modeling and simulation ,ITER ,Control system ,Hardware-in-the-loop (HIL) simulation ,Model-based design ,Systems engineering ,computer ,rapid prototyping ,computer.programming_language - Abstract
The ITER tokamak (Latin for “the way”) is the next step toward the realization of electricity-producing fusion power plants, since it has been designed to reach the plasma burning condition. The Central Safety System for Nuclear Risk (CSS) is the control system in charge to assure nuclear safety for the ITER plant, the personnel, and the environment. Since the CSS is a critical safety system, its validation and commissioning play an important role, and the required level of reliability must be demonstrated. In such a scenario, it is strongly recommended to use modeling and simulation tools since the early design phase. Indeed, mathematical models will help in the definition of the control system requirements. These models can be used for the rapid prototyping of the safety system, and hardware-in-the-loop (HIL) simulations can be performed to assess the performance of the control hardware against a plant simulator. This paper introduces the methodology and the software/hardware architecture used to develop both a CSS prototype and a ITER plant model suitable for the test and validation of this prototype.
- Published
- 2010
31. Conceptual design of the FAST load assembly
- Author
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G. Brolatti, V. Pericoli-Ridolfini, G. Ramogida, P. Costa, A. Coletti, F. Crescenzi, G. Calabrò, G. Maddaluno, Giuseppe Ambrosino, P. Frosi, F. Crisanti, Raffaele Albanese, A. Cucchiaro, Aldo Pizzuto, V. Cocilovo, C. Rita, Gustavo Granucci, R. Coletti, A., Cucchiaro, Albanese, Raffaele, Ambrosino, Giuseppe, G., Brolatti, G., Calabro, V., Cocilovo, A., Coletti, R., Coletti, P., Costa, P., Frosi, F., Crescenzi, F., Crisanti, G., Granucci, G., Maddaluno, V., Pericoli Ridolfini, A., Pizzuto, C., Rita, and G., Ramogida
- Subjects
Materials science ,Tokamak ,Advanced Tokamak regime ,Mechanical Engineering ,Divertor ,Cyclotron ,chemistry.chemical_element ,Fusion power ,FAST Tokamak ,Liquid lithium divertor ,Neutral beam injection ,Electron cyclotron resonance ,law.invention ,Burning plasma ,Neon ,Nuclear Energy and Engineering ,chemistry ,law ,Magnet ,Ripple ,General Materials Science ,Burning plasmas ,Advanced Tokamak regimes ,Atomic physics ,Civil and Structural Engineering - Abstract
Fusion advanced studies torus (FAST) is a proposal for a satellite facility which can contribute the rapid exploitation of ITER and prepare ITER and DEMO regimes of operation, as well as exploiting innovative DEMO technology. FAST is a compact (R(0) = 1.82 m, a = 0.64 m, triangularity delta = 0.4) machine able to investigate non-linear dynamics effects of alpha particle behaviours in burning plasmas [1,2,5]. The project is based on a dominant 30 MW of ion cyclotron resonance heating (ICRH), 6 MW of lower hybrid (LH) and 4 MW of electron cyclotron resonance heating (ECRH). FAST operates at a wide range [3,4] of parameters, e.g., in high performance H-mode (B(T) up to 8.5T: I(p) up to 8 MA) as well as in advanced Tokamak operation (I(p) = 3 MA), and full non-inductive current scenario (I(p) = 2 MA). Helium gas at 30K is used for cooling the resistive copper magnets [6]. That allows for a pulse duration up to 170s. To limit the TF magnet ripple ferromagnetic insert have been introduced inside the vacuum vessel (VV). Ports have been designed to also accommodate up to 10 MW of negative neutral beam injection (NNBI). Tungsten (W) or liquid lithium (L-Li) have been chosen as the divertor plates material, and argon or neon as the injected impurities to mitigate the thermal loads. (C) 2009 Elsevier B.V. All rights reserved.
- Published
- 2010
32. Perspectives for the High Field Approach in Fusion Research and Advances within the Ignitor Program
- Author
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S. Mantovani, Bruno Coppi, Marco Tavani, Adele D'Amico, M. Sassi, A. DeVellis, P. Detragiache, Giovanna Cenacchi, Francesco Giammanco, P. Ferraris, Silvio Migliori, Alfredo Pironti, G. De Tommasi, S. Spillantini, G. Ramogida, G. Grasso, A. Airoldi, Fabio Villone, Guglielmo Rubinacci, A. Perona, L. Zucchi, A. Cardinali, Antonio Frattolillo, R. Napoli, A. Tumino, Giuseppe Ambrosino, F. Conti, L. Merriman, M. Lazzaretti, Raffaele Albanese, Samuele Pierattini, G. Belforte, Enrico Costa, E. Boggio-Sella, A. Sestero, G. Faelli, Coppi, B., Airoldi, A., Albanese, Raffaele, Ambrosino, Giuseppe, Belforte, G., Boggio Sella, E., Cardinali, A., Conti, F., Costa, E., D'Amico, A., Detragiache, P., DE TOMMASI, Gianmaria, Devellis, A., Faelli, G., Ferraris, P., Frattolillo, A., Giammanco, F., Grasso, D., Lazzaretti, M., Mantovani, S., Merriman, L., Migliori, S., Napoli, R., Perona, A., Pierattini, S., Pironti, Alfredo, Ramogida, A. G., Rubinacci, Guglielmo, Sassi, M., Sestero, A., Tavani, M., Tumino, A., Villone, F., and Zucchi, L.
- Subjects
Nuclear and High Energy Physics ,Fusion ,Thermonuclear fusion ,Computer science ,Nuclear engineering ,fusion reactors ,Welding ,Superconducting magnet ,Plasma ,Condensed Matter Physics ,IGNITOR ,burning plasmas ,law.invention ,Ignition system ,Physics::Plasma Physics ,law ,Magnet ,ignition ,burning plasma - Abstract
The Ignitor Program maintains the objective of approaching D-T ignition conditions by incorporating systematical advances made with relevant high field magnet technology and with experiments on high density well confined plasmas in the present machine design. An additional objective is that of charting the development of the high field line of experiments that goes from the Alcator machine to the ignitor device. The rationale for this class of experiments, aimed at producing poloidal fields with the highest possible values (compatible with proven safety factors of known plasma instabilities) is given. On the basis of the favourable properties of high density plasmas produced systematically by this line of machines, the envisioned future for the line, based on novel high field superconducting magnets, includes the possibility of investigating more advanced fusion burn conditions than those of the D-T plasmas for which Ignitor is designed. Considering that a detailed machine design has been carried out (Coppi et al 2013 Nucl. Fusion 53 104013), the advances made in different areas of the physics and technology that are relevant to the Ignitor project are reported. These are included within the following sections of the present paper: main components issues, assembly and welding procedures; robotics criteria; non-linear feedback control; simulations with three-dimensional structures and disruption studies; ICRH and dedicated diagnostics systems; anomalous transport processes including self-organization for fusion burning regimes and the zero-dimensional model; tridimensional structures of the thermonuclear instability and control provisions; superconducting components of the present machine; envisioned experiments with high field superconducting magnets. © 2015 IAEA.
- Published
- 2015
33. The ITER Plasma Control System Simulation Platform
- Author
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G. De Tommasi, M.L. Walker, Giuseppe Ambrosino, G. Neu, W. Treutterer, A. Winter, C. J. Rapson, D.A. Humphreys, Gerhard Raupp, A.S. Welander, Massimiliano Mattei, Walker, M. L, Ambrosino, G., De Tommasi, G., Humphreys, D. A., Mattei, Massimiliano, Neu, G., Rapson, C. J., Raupp, G., Treutterer, W., Welander, A. S., Winter, A., Walker, M. L., Ambrosino, Giuseppe, DE TOMMASI, Gianmaria, and Mattei, M.
- Subjects
Focus (computing) ,business.industry ,Computer science ,Tokamak ,Mechanical Engineering ,Exception handling ,Control (management) ,Modular design ,Plasma control ,Alpha (programming language) ,Plasma ,Mode (computer interface) ,Nuclear Energy and Engineering ,Systems engineering ,Plasma control system ,General Materials Science ,Materials Science (all) ,Architecture ,business ,Simulation ,Civil and Structural Engineering - Abstract
The Plasma Control System Simulation Platform (PCSSP) is a highly flexible, modular, time-dependent simulation environment developed primarily to support development of the ITER Plasma Control System (PCS). It has been under development since 2011 and is scheduled for first release to users in the ITER Organization (IO) and at selected additional sites in 2015. Modules presently implemented in PCSSP enable exploration of axisymmetric evolution and control, basic kinetic control, and tearing mode suppression. A basic capability for generation of control-relevant events is included, enabling study of exception handling in the PCS, continuous controllers, and PCS architecture. While the control design focus of PCSSP applications tends to require only a moderate level of accuracy and complexity in modules, more complex codes can be embedded or connected to access higher accuracy if needed. This paper describes the background and motivation for PCSSP, provides an overview of the capabilities, architecture, and features of PCSSP, and discusses details of the PCSSP vision and its intended goals and application. Completed work, including architectural design, prototype implementation, reference documents, and IO demonstration of PCSSP, is summarized and example use of PCSSP is illustrated. Near-term high-level objectives are summarized and include preparation for release of an "alpha" version of PCSSP and preparation for the next development phase. High-level objectives for future work are also discussed. © 2015 Elsevier B.V. All rights reserved.
- Published
- 2015
34. Development environments for Tokamak plasma control
- Author
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Giuseppe Ambrosino, M.L. Walker, D.A. Humphreys, A.S. Welander, G. Neu, P. de Vries, W. Treutterer, G. De Tommasi, Joseph Snipes, B. Sammuli, Massimiliano Mattei, A. Winter, Gerhard Raupp, C. J. Rapson, Walker, M. L., Humphreys, D. A., Sammuli, B., Welander, A. S., Winter, A., Snipes, J., de Vries, P., Ambrosino, Giuseppe, DE TOMMASI, Gianmaria, Mattei, M., Neu, G., Treutterer, W., Raupp, G., Rapson, C., SOFE, Ambrosino, G., De Tommasi, G., and Mattei, Massimiliano
- Subjects
Engineering ,PCSSP ,Tokamak ,Software suite ,business.industry ,ITER PCS ,Control engineering ,Plasma control ,law.invention ,Data modeling ,Software ,law ,Control system ,KSTAR ,Systems engineering ,Software system ,TokSys ,business ,MATLAB ,computer ,Simulation ,computer.programming_language - Abstract
We describe a software system known as the Plasma Control System Simulation Platform (PCSSP) that is being constructed to support development of the ITER plasma control system. When mature, PCSSP will provide support for industry standard practices such as model-based controller design, simulation testing of controllers, auto-generation of controller code, hardware-and software-in-The-loop testing, use of source code management tools, and open-source methods in development of the software and control algorithms for the ITER Plasma Control System (PCS). It will also contribute to fusion-specific objectives such as validation of ITER pulse schedules prior to their use in experimental operation. We also describe a more mature but less sophisticated software suite known as TokSys, which was developed at General Atomics to support plasma control development and is expected to eventually merge with PCSSP. Plasma control development activities that use or have used these software systems are also described. We will discuss the ongoing ITER PCS control algorithm development for initial plasma operation, which takes advantage of the existing PCSSP infrastructure and library of modules. Plasma control development and initial plasma operation of the EAST and KSTAR tokamaks relied heavily on the TokSys suite, which is now in routine use at EAST, KSTAR, DIII-D, and NSTX-U. © 2015 IEEE.
- Published
- 2015
35. Novel aspects of plasma control in ITER
- Author
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Alfredo Pironti, Giuseppe Ambrosino, M.L. Walker, L. Zabeo, Faa Federico Felici, Egemen Kolemen, S.H. Kim, D. Moreau, Joseph Snipes, D.A. Humphreys, Gerhard Raupp, A. Winter, A.S. Welander, A. Kallenbach, G.L. Jackson, P. de Vries, Eugenio Schuster, Olivier Sauter, J.B. Lister, W. Treutterer, Humphreys, D., Ambrosino, Giuseppe, De Vries, P., Felici, F., Kim, S. H., Jackson, G., Kallenbach, A., Kolemen, E., Lister, J., Moreau, D., Pironti, Alfredo, Raupp, G., Sauter, O., Schuster, E., Snipes, J., Treutterer, W., Walker, M., Welander, A., Winter, A., Zabeo, L., and Control Systems Technology
- Subjects
Physics ,Electronic stability control ,Neutron flux ,Auxiliary power unit ,Divertor ,Key (cryptography) ,Ranging ,Atomic physics ,Condensed Matter Physics ,Actuator ,Reliability engineering ,Plasma control - Abstract
ITER plasma control design solutions and performance requirements are strongly driven by its nuclear mission, aggressive commissioning constraints, and limited number of operational discharges. In addition, high plasma energy content, heat fluxes, neutron fluxes, and very long pulse operation place novel demands on control performance in many areas ranging from plasma boundary and divertor regulation to plasma kinetics and stability control. Both commissioning and experimental operations schedules provide limited time for tuning of control algorithms relative to operating devices. Although many aspects of the control solutions required by ITER have been well-demonstrated in present devices and even designed satisfactorily for ITER application, many elements unique to ITER including various crucial integration issues are presently under development. We describe selected novel aspects of plasma control in ITER, identifying unique parts of the control problem and highlighting some key areas of research remaining. Novel control areas described include control physics understanding (e. g., current profile regulation, tearing mode (TM) suppression), control mathematics (e. g., algorithmic and simulation approaches to high confidence robust performance), and integration solutions (e. g., methods for management of highly subscribed control resources). We identify unique aspects of the ITER TM suppression scheme, which will pulse gyrotrons to drive current within a magnetic island, and turn the drive off following suppression in order to minimize use of auxiliary power and maximize fusion gain. The potential role of active current profile control and approaches to design in ITER are discussed. Issues and approaches to fault handling algorithms are described, along with novel aspects of actuator sharing in ITER. (C) 2015 AIP Publishing LLC.
- Published
- 2015
36. XSC plasma control: Tool development for the session leader
- Author
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Alfredo Pironti, Massimiliano Mattei, F. Crisanti, Fabio Villone, Raffaele Albanese, G. De Tommasi, F. Piccolo, Filippo Sartori, Marco Ariola, G. Ambrosino, Angelo Cenedese, Ambrosino, Giuseppe, Albanese, Raffaele, Ariola, M., Cenedese, A., Crisanti, F., DE TOMMASI, Gianmaria, Mattei, M., Piccolo, F., Pironti, Alfredo, Sartori, F., Villone, F., Villone, Fabio, Ambrosino, G., R., Albanese, M., Ariola, A., Cenedese, F., Crisanti, G., DE TOMMASI, Mattei, Massimiliano, F., Piccolo, A., Pironti, F., Sartori, and F., Villone
- Subjects
JET experiment ,Computer science ,business.industry ,Mechanical Engineering ,SW tools ,Development (topology) ,Software ,Nuclear Energy and Engineering ,Control theory ,Control system ,General Materials Science ,XSC ,Materials Science (all) ,Session (computer science) ,Software engineering ,business ,Civil and Structural Engineering ,Plasma control - Abstract
A new model-based shape controller (XSC, i.e., eXtreme Shape Controller) able to operate with high elongation and triangularity plasmas has been designed and implemented at JET in 2003. The use of the XSC needs a number of steps, which at present are not automated and therefore imply the involvement of several experts. To help the session leader in preparing an experiment, a number of software tools are needed. The paper describes the SW tools that are currently in the developing phase, and describes the new framework for the preparation of a JET experiment.
- Published
- 2005
37. Event generation and simulation of exception handling with the ITER PCSSP
- Author
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W. Treutterer, A. Winter, M.L. Walker, D.A. Humphreys, Giuseppe Ambrosino, Gerhard Raupp, Massimiliano Mattei, G. De Tommasi, G. Neu, Raupp, G., Walker, M. L., Ambrosino, Giuseppe, DE TOMMASI, Gianmaria, Humphreys, D. A., Mattei, M., Neu, G., Treutterer, W., Winter, A., Raupp, G, Ambrosino, G., De Tommasi, G., and Mattei, Massimiliano
- Subjects
Schedule ,Computer science ,Event (computing) ,Mechanical Engineering ,Exception handling ,Plasma control ,Domain (software engineering) ,Nuclear Energy and Engineering ,Component (UML) ,General Materials Science ,Materials Science (all) ,Interlock ,Actuator ,Simulation ,Degradation (telecommunications) ,Civil and Structural Engineering - Abstract
The plasma control system simulation platform (PCSSP) for ITER shall support the analysis and development of methods to be used by the ITER plasma control system (PCS) for handling exceptions to optimize pulses and assist in machine protection. PCSSP will permit to investigate physical and technical events, such as component failures, control degradation, operation domain excess, plasma state bifurcation or instabilities, and interlock activity. Serving that purpose, the plasma, actuator, diagnostics and PCS simulation modules in PCSSP will be enhanced to compute nominal and off-normal data. Configured by an event schedule, an event generator will orchestrate the activation and manipulate the characteristics of such off-normal computation. In the simulated PCS exceptions will be handled in a pulse supervision layer operating on top of the pulse continuous control (PCC) feedback loops. It will monitor events, decide on which exceptions to respond, and compute new control references to modify PCC behavior. We discuss basic concepts for the event generation in PCSSP, and a preliminary architecture for exception handling in PCS, and show how these will be configured with event and pulse schedules.
- Published
- 2014
38. Shape Control with the eXtreme Shape Controller during Plasma Current Ramp-Up and Ramp-Down at the JET Tokamak
- Author
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A. C. C. Sips, Sergio Galeani, G. Varano, G. De Tommasi, G. Calabrò, Marco Ariola, Francesco Maviglia, F.G. Rimini, R. Vitelli, Giuseppe Ambrosino, Luca Zaccarian, Alfredo Pironti, Jet-Efda Contributors, Università degli studi di Napoli Federico II, Istituto di Fisica del Plasma, EURATOM-ENEA-CNR Association, Consiglio Nazionale delle Ricerche [Roma] (CNR), Università degli Studi di Roma Tor Vergata [Roma], EURATOM/CCFE Fusion Association, Culham Science Centre [Abingdon], European Commission [Brussels], Équipe Méthodes et Algorithmes en Commande (LAAS-MAC), Laboratoire d'analyse et d'architecture des systèmes (LAAS), Université Toulouse - Jean Jaurès (UT2J)-Université Toulouse 1 Capitole (UT1), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Toulouse - Jean Jaurès (UT2J)-Université Toulouse 1 Capitole (UT1), Université Fédérale Toulouse Midi-Pyrénées, Dipartimento di Ingegneria Industriale [Trento], University of Trento [Trento], DE TOMMASI, Gianmaria, Ambrosino, Giuseppe, Ariola, M., Calabrò, G., Galeani, S., Maviglia, F., Pironti, Alfredo, Rimini, F. G., Sips, A. C. C., Varano, G., Vitelli, R., Zaccarian, L., University of Naples Federico II = Università degli studi di Napoli Federico II, National Research Council of Italy | Consiglio Nazionale delle Ricerche (CNR), Université Toulouse Capitole (UT Capitole), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Université de Toulouse (UT)-Institut National des Sciences Appliquées (INSA)-Université Toulouse - Jean Jaurès (UT2J), Université de Toulouse (UT)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université Toulouse Capitole (UT Capitole), and Université de Toulouse (UT)
- Subjects
0209 industrial biotechnology ,Nuclear and High Energy Physics ,Tokamak ,eXtreme Shape Controller ,Tokamak control ,Astrophysics::High Energy Astrophysical Phenomena ,Phase (waves) ,Current limit avoidance ,Plasma shape control ,02 engineering and technology ,01 natural sciences ,7. Clean energy ,010305 fluids & plasmas ,law.invention ,[SPI.AUTO]Engineering Sciences [physics]/Automatic ,020901 industrial engineering & automation ,Settore ING-INF/04 - Automatica ,Control theory ,law ,0103 physical sciences ,Physics ,Jet (fluid) ,Plasma ,Mechanics ,Classical mechanics ,Nuclear Energy and Engineering ,Transient (oscillation) ,Current (fluid) ,Actuator - Abstract
The eXtreme Shape Controller (XSC) has been originally designed to control the plasma shape at JET during the flat-top phase, when the plasma current has a constant value. During the JET 2012 experimental campaigns, the XSC has been used to improve the shape control during the transient phases of plasma current ramp-up and ramp-down. In order to avoid the saturation of the actuators with these transient phases, a current limit avoidance system has been designed and implemented. This paper presents the experimental results achieved at JET during the 2012 campaigns using the XSC. © 2013 Euratom: EURATOM-ENEA-CREATE/ Universita' di Napoli Federico II; European Atomic Energy Community.
- Published
- 2014
39. A Modern Plasma Controller Tested on the TCV Tokamak
- Author
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Giuseppe Ambrosino, J.B. Lister, Alfredo Pironti, Fabio Villone, Marco Ariola, Parag Vyas, Ariola, M., Ambrosino, Giuseppe, Lister, J. B., Pironti, Alfredo, Villone, F., and Vyas, P.
- Subjects
Tokamak ,Computer science ,020209 energy ,Multivariable calculus ,General Engineering ,02 engineering and technology ,Plasma ,Optimal control ,01 natural sciences ,010305 fluids & plasmas ,law.invention ,LRP 606 ,law ,Control theory ,Position (vector) ,Control system ,0103 physical sciences ,0202 electrical engineering, electronic engineering, information engineering ,Engineering design process - Abstract
A high-order, multivariable, modern plasma controller has been designed using H-infinity optimal control techniques and tested oil the Tokamak Configuration Variable (TCV) tokamak. An initial design for the control of the plasma current, position, and shape parameters is described. The design process was based on the CREATE-L linearized model of TCV, and the controller was implemented oil a digital processor. The results demonstrated that the required performance was delivered and the controller response was in good agreement with predictions using the model.
- Published
- 1999
40. New developments, plasma physics regimes and issues for the Ignitor experiment
- Author
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Alfredo Pironti, A. Bianchi, S. Mantovani, Arnaud Ferrari, A. Tumino, Giuseppe Ambrosino, Bruno Coppi, M. Lazzaretti, A. DeVellis, Francesco Giammanco, Giovanna Cenacchi, P. Detragiache, Fabio Villone, Samuele Pierattini, P. Frosi, Silvio Migliori, Raffaele Albanese, G. De Tommasi, A. Airoldi, Enrico Costa, M. Sassi, A. Cardinali, G. Faelli, Antonio Frattolillo, F. Bombarda, G. Grasso, G. Ramogida, Marco Tavani, Guglielmo Rubinacci, Coppi, B., Airoldi, A., Albanese, Raffaele, Ambrosino, Giuseppe, Bombarda, F., Bianchi, A., Cardinali, A., Cenacchi, G., Costa, E., Detragiache, P., DE TOMMASI, Gianmaria, Devellis, A., Faelli, G., Ferrari, A., Frattolillo, A., Frosi, P., Giammanco, F., Grasso, G., Lazzaretti, M., Mantovani, S., Migliori, S., Pierattini, S., Pironti, Alfredo, Ramogida, G., Rubinacci, Guglielmo, Sassi, M., Tavani, M., Tumino, A., and Villone, F.
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Physics ,Nuclear and High Energy Physics ,Toroid ,Nuclear engineering ,Full scale ,Control reconfiguration ,Condensed Matter Physics ,IGNITOR ,law.invention ,Nuclear physics ,Ignition system ,Duty cycle ,law ,Magnet ,Water cooling - Abstract
The scientific goal of the Ignitor experiment is to approach, for the first time, the ignition conditions of a magnetically confined D-T plasma. The IGNIR collaboration between Italy and Russia is centred on the construction of the core of the Ignitor machine in Italy and its installation and operation within the Triniti site (Troitsk). A parallel initiative has developed that integrates this programme, involving the study of plasmas in which high-energy populations are present, with ongoing research in high-energy astrophysics, with a theory effort involving the National Institute for High Mathematics, and with INFN and the University of Pisa for the development of relevant nuclear and optical diagnostics. The construction of the main components of the machine core has been fully funded by the Italian Government. Therefore, considerable attention has been devoted towards identifying the industrial groups having the facilities necessary to build these components. An important step for the Ignitor programme is the adoption of the superconducting MgB2 material for the largest poloidal field coils (P14) that is compatible with the He-gas cooling system designed for the entire machine. The progress made in the construction of these coils is described. An important advance has been made in the reconfiguration of the cooling channels of the toroidal magnet that can double the machine duty cycle. A facility has been constructed to test the most important components of the ICRH system at full scale, and the main results of the tests carried out are presented. The main physics issues that the Ignitor experiment is expected to face are analysed considering the most recent developments in both experimental observations and theory for weakly collisional plasma regimes. Of special interest is the I-regime that has been investigated in depth only recently and combines advanced confinement properties with a high degree of plasma purity. This is a promising alternative to the high-density L-regime that had been observed by the Alcator experiment and whose features motivated the Ignitor project. The provisions that are incorporated in the machine design, and in that of the plasma chamber in particular, in order to withstand or prevent the development of macroscopic instabilities with deleterious amplitudes are presented together with relevant analyses. © 2013 IAEA, Vienna.
- Published
- 2013
41. Shape control with the XSC during plasma current ramp-up and ramp-down at the JET tokamak
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G. De Tommasi, F.G. Rimini, Giuseppe Ambrosino, Francesco Maviglia, A. C. C. Sips, Marco Ariola, Sergio Galeani, R. Vitelli, G. Varano, Alfredo Pironti, Luca Zaccarian, G. Calabrò, DE TOMMASI, Gianmaria, Ambrosino, Giuseppe, M., Ariola, G., Calabrò, S., Galeani, F., Maviglia, Pironti, Alfredo, F. G., Rimini, A. C. C., Sip, G., Varano, R., Vitelli, L., Zaccarian, and Calabro, G.
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0209 industrial biotechnology ,Tokamak control ,Tokamak ,Astrophysics::High Energy Astrophysical Phenomena ,Phase (waves) ,02 engineering and technology ,01 natural sciences ,010305 fluids & plasmas ,law.invention ,020901 industrial engineering & automation ,Settore ING-INF/04 - Automatica ,Control theory ,law ,0103 physical sciences ,Current limit avoidance ,Physics ,Jet (fluid) ,Plasma shape control ,EXtreme shape controller ,Plasma ,Mechanics ,Transient (oscillation) ,Current (fluid) ,Actuator ,Current limit avoidance EXtreme shape controller Plasma shape control Tokamak control - Abstract
The eXtreme Shape Controller (XSC) has been originally designed to control the plasma shape at JET during the flat-top phase, when the plasma current has a constant value. During the JET 2012 experimental campaigns, the XSC has been used to improve the shape control during the transient phases of plasma current ramp-up and ramp-down. In order to avoid the saturation of the actuators with these transient phases, a Current Limit Avoidance system (CLA ) has been designed and implemented. This paper discusses the CLA algorithm and presents the experimental results achieved at JET during the 2012 campaigns using the XSc. © 2013 IEEE.
- Published
- 2013
- Full Text
- View/download PDF
42. The Fusion Advanced Studies Torus (FAST): a proposal for an ITER satellite facility in support of the development of fusion energy
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P. Costa, M.L. Apicella, Daniele Marocco, P. Frosi, V. Cocilovo, Piero Martin, V. Coccorese, Francesco Gnesotto, Francesco Mirizzi, A. A. Tuccillo, M. Marinucci, M. Schneider, Gustavo Granucci, Aldo Pizzuto, Sergio Briguglio, M. Lontano, R. Cesario, F. Crisanti, Fulvio Zonca, G. Ramogida, E. Giovannozzi, Riccardo Maggiora, C. Di Troia, F. P. Orsitto, A. Cucchiaro, M. Valisa, Gian Luca Ravera, R. Villari, R. Zagórski, S. Nowak, Raffaele Albanese, Alessandro Bruschi, C. Rita, A. Cardinali, V. Pericoli Ridolfini, M. Santinelli, Basilio Esposito, G. Mazzitelli, R. Coletti, L. Panaccione, R. Paccagnella, F. Crescenzi, M. Baruzzo, G. Ambrosino, G. Maddaluno, A. Coletti, Gregorio Vlad, G. Calabrò, G. Fogaccia, A., Pizzuto, F., Gnesotto, M., Lontano, Albanese, Raffaele, Ambrosino, Giuseppe, M. L., Apicella, M., Baruzzo, A., Bruschi, G., Calabrò, A., Cardinali, R., Cesario, F., Crisanti, V., Cocilovo, A., Coletti, R., Coletti, P., Costa, S., Briguglio, P., Frosi, F., Crescenzi, Coccorese, Vincenzo, A., Cucchiaro, C., Di Troia, B., Esposito, G., Fogaccia, E., Giovannozzi, G., Granucci, G., Maddaluno, R., Maggiora, M., Marinucci, D., Marocco, P., Martin, G., Mazzitelli, F., Mirizzi, S., Nowak, R., Paccagnella, L., Panaccione, G. L., Ravera, F., Orsitto, V., Pericoli Ridolfini, G., Ramogida, C., Rita, M., Santinelli, M., Schneider, A. A., Tuccillo, R., Zagórski, M., Valisa, R., Villari, G., Vlad, and F., Zonca
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Physics ,Nuclear and High Energy Physics ,Tokamak ,heating and ignition ,Nuclear engineering ,Divertor ,magnetic confinement ,Magnetic confinement fusion ,Plasma ,Fusion power ,thermonuclear fusion ,Fueling ,Condensed Matter Physics ,Electron cyclotron resonance ,law.invention ,fast particles ,Nuclear fusion ,law ,FAST ,Vacuum chamber ,Atomic physics ,ITER satellite ,tokamak ,Ion cyclotron resonance - Abstract
FAST is a new machine proposed to support ITER experimental exploitation as well as to anticipate DEMO relevant physics and technology. FAST is aimed at studying, under burning plasma relevant conditions, fast particle (FP) physics, plasma operations and plasma wall interaction in an integrated way. FAST has the capability to approach all the ITER scenarios significantly closer than the present day experiments using deuterium plasmas. The necessity of achieving ITER relevant performance with a moderate cost has led to conceiving a compact tokamak (R = 1.82 m, a = 0.64 m) with high toroidal field (B(T) up to 8.5 T) and plasma current (I(p) up to 8 MA). In order to study FP behaviours under conditions similar to those of ITER, the project has been provided with a dominant ion cyclotron resonance heating system (ICRH; 30 MW on the plasma). Moreover, the experiment foresees the use of 6 MW of lower hybrid (LHCD), essentially for plasma control and for non-inductive current drive, and of electron cyclotron resonance heating (ECRH, 4 MW) for localized electron heating and plasma control. The ports have been designed to accommodate up to 10 MW of negative neutral beams (NNBI) in the energy range 0.5-1 MeV. The total power input will be in the 30-40 MW range under different plasma scenarios with a wall power load comparable to that of ITER (P/R similar to 22 MW m(-1)). All the ITER scenarios will be studied: from the reference H mode, with plasma edge and ELMs characteristics similar to the ITER ones (Q up to approximate to 1.5), to a full current drive scenario, lasting around 170s. The first wall (FW) as well as the divertor plates will be of tungsten in order to ensure reactor relevant operation regimes. The divertor itself is designed to be completely removable by remote handling. This will allow us to study (in view of DEMO) the behaviour of innovative divertor concepts, such as those based on liquid lithium. FAST is capable of operating with very long pulses, up to 170s, despite being a copper machine. The magnets initial operation temperature is 30 K, with cooling provided by helium gas. The in vessel components, namely FW and divertor, are actively cooled by pressurized water above 80 degrees C. The same water is also used to bake the vacuum vessel. FAST is equipped with ferromagnetic inserts to keep the toroidal field magnet ripple down to 0.3%.
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- 2010
43. Development of ITER 15 MA ELMy H-mode inductive scenario
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R. Kharyrutdinov, J.A. Leuer, L. D. Horton, T.A. Casper, J.C. Wesley, David Campbell, Massimiliano Mattei, C.E. Kessel, F. Koechl, R. Sartori, R.V. Budny, V.E. Lukash, P. R. Thomas, H. Fujieda, A. R. Polevoi, P. J. Lomas, A. C. C. Sips, Y. Gribov, A. Loarte, Alfredo Portone, A. Kavin, A.S. Welander, I. Nunes, V.V. Parail, T.C. Luce, G. Saibene, Mario Cavinato, Giuseppe Ambrosino, R.J. Hawryluk, Kessel, C. E., Campbell, D., Gribov, Y., Saibene, G., Ambrosino, Giuseppe, Budny, R. V., Casper, T., Cavinato, M., Fujieda, H., Hawryluk, R., Horton, L. D., Kavin, A., Kharyrutdinov, R., Koechl, F., Leuer, J., Loarte, A., Lomas, P. J., Luce, T., Lukash, V., Mattei, M., Nunes, I., Parail, V., Polevoi, A., Portone, A., Sartori, R., Sips, A. C. C., Thomas, P. R., Welander, A., Wesley, J., Kessel, C., Ambrosino, G., Budny, R., Horton, L., Lomas, P., Mattei, Massimiliano, Sips, A., and Thomas, P.
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Physics ,Nuclear and High Energy Physics ,Upgrade ,Electromagnetic coil ,Nuclear engineering ,Divertor ,Fusione Termonucleare, Tokamak, Modellistica e Controllo di plasmi ,Feed forward ,Magnetic confinement fusion ,Solenoid ,Plasma ,Condensed Matter Physics ,Flattop - Abstract
The poloidal field (PF) coil system on ITER, which provides both feedforward and feedback control of plasma position, shape, and current, is a critical element for achieving mission performance. Analysis of PF capabilities has focused on the 15 MA Q = 10 scenario with a 300–500 s flattop burn phase. The operating space available for the 15 MA ELMy H-mode plasma discharges in ITER and upgrades to the PF coils or associated systems to establish confidence that ITER mission objectives can be reached have been identified. Time dependent self-consistent free-boundary calculations were performed to examine the impact of plasma variability, discharge programming and plasma disturbances. Based on these calculations a new reference scenario was developed based upon a large bore initial plasma, early divertor transition, low level heating in L-mode and a late H-mode onset. Static equilibrium analyses for this scenario, which determine PF coil currents to produce a given plasma configuration, indicate that the original PF coil limitations do not allow low li(
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- 2009
44. Dynamic simulation of a planar flexible boom for tokamak in-vessel operations
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G. Celentano, David Maisonnier, Franco Garofalo, Giuseppe Ambrosino, Ambrosino, Giuseppe, Celentano, Giovanni, Garofalo, Francesco, and D., Maisonnier
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Tokamak ,Horizontal and vertical ,Mechanical Engineering ,Mechanics ,Boom ,law.invention ,Vibration ,Dynamic simulation ,Planar ,Nuclear Energy and Engineering ,law ,Net (polyhedron) ,General Materials Science ,Geology ,Civil and Structural Engineering - Abstract
In this paper we present a dynamic model for the analysis of the vibrations of the vibrations of a planar articulated flexible boom to be used for tokamak in-vessel maintenance operations. The peculiarity of the mechanical structure of the boom enables us to consider separately the oscillations in the horizontal and vertical planes so that two separate models can be constructed for describing these phenomena. The results of simulations based on booms like that proposed for NET in-vessel operations are presented.
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- 1991
45. Development of real-time diagnostics and feedback algorithms for JET in view of the next step
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A Murari, E Joffrin, R Felton, D Mazon, L Zabeo, R Albanese, P Arena, G Ambrosino, M Ariola, O Barana, M Bruno, L Laborde, D Moreau, F Piccolo, F Sartori, F Crisanti, E de la Luna, J Sanchez, EFDA-JET Contributors, Consorzio RFX Associazione EURATOM ENEA per la Fusione, EURATOM, Euratom/UKAEA Fusion Assoc., Culham Science Centre [Abingdon], Service de réanimation médicale, Université Paris Diderot - Paris 7 (UPD7)-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Assoc. Euratom-ENEA-CREATE, Universita Mediterranea of Reggio Calabria [Reggio Calabria], Università degli studi di Catania [Catania], Università degli studi di Napoli Federico II, Associazone EURATOM ENEA sulla Fusione, Associacion EURATOM CIEMAT para Fusion, Assistance publique - Hôpitaux de Paris (AP-HP) (APHP)-Université Paris Diderot - Paris 7 (UPD7)-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (APHP), A., Murari, E., Joffrin, R., Felton, D., Mazon, L., Zabeo, Albanese, Raffaele, P., Arena, Ambrosino, Giuseppe, M., Ariola, O., Barana, M., Bruno, L., Laborde, D., Moreau, F., Piccolo, F., Sartori, F., Crisanti, E. d., La, and J., Sanchez
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Scheme (programming language) ,Tokamak ,Computer science ,Nuclear Energy and Engineering ,Condensed Matter Physics ,FOS: Physical sciences ,01 natural sciences ,010305 fluids & plasmas ,law.invention ,PROFILE CONTROL ,Set (abstract data type) ,Real Time diagnostics ,Software ,[PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph] ,Real-time Control System ,law ,0103 physical sciences ,Relevance (information retrieval) ,010306 general physics ,computer.programming_language ,business.industry ,Feedback algorithms ,Ranging ,Physics - Plasma Physics ,Plasma Physics (physics.plasm-ph) ,TOKAMAK ,Robust control ,business ,computer ,Algorithm - Abstract
Real time control of many plasma parameters will be an essential aspect in the development of reliable high performance operation of Next Step Tokamaks. The main prerequisites for any feedback scheme are the precise real-time determination of the quantities to be controlled, requiring top quality and highly reliable diagnostics, and the availability of robust control algorithms. A new set of real time diagnostics was recently implemented on JET to prove the feasibility of determining, with high accuracy and time resolution, the most important plasma quantities. With regard to feedback algorithms, new model–based controllers were developed to allow a more robust control of several plasma parameters. Both diagnostics and algorithms were successfully used in several experiments, ranging from H-mode plasmas to configuration with ITBs. Since elaboration of computationally heavy measurements is often required, significant attention was devoted to non-algorithmic methods like Digital or Cellular Neural/Nonlinear Networks. The real time hardware and software adopted architectures are also described with particular attention to their relevance to ITER., Comment: 12th International Congress on Plasma Physics, 25-29 October 2004, Nice (France)
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- 2005
46. A Control Design Oriented Mathematical Model for the Scirocco Plasma Wind Tunnel
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Giuseppe Ambrosino, G. Celentano, Massimiliano Mattei, Ambrosino, Giuseppe, Celentano, Giovanni, Mattei, M., Ambrosino, G., Celentano, G., and Mattei, Massimiliano
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Engineering ,Integrated design ,business.industry ,Applied Mathematics ,Thermal process ,Control (management) ,Phase (waves) ,Plasma wind tunnel ,Control engineering ,Plasma ,Hypersonic aerodynamic ,Tracking (particle physics) ,computer.software_genre ,Computer Science Applications ,Simulation software ,Software ,Control and Systems Engineering ,Modeling and Simulation ,business ,computer ,Control design oriented modelling ,Wind tunnel - Abstract
In this paper the mathematical model of a modern arc heated Plasma Wind Tunnel used to test parts of space vehicles during the re-entry phase is presented. Due to the complexity of the physical processes arising during the operating of the plant, a number of simplification is proposed to obtain a control design oriented fast and efficient simulation software. Such a software was successfully used during the design phase to become confident with the dynamic behavior of the facility and to achieve a process-control integrated design. During the operating life of the wind tunnel it will be used to support the test engineers in the design of the control laws for the tracking of the desired trajectories in temperature and pressure on the test article. A short description of the test control algorithm which is based on the above model is also provided.
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- 2001
47. Overview of JET results for optimising ITER operation
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J. Mailloux, N. Abid, K. Abraham, P. Abreu, O. Adabonyan, P. Adrich, V. Afanasev, M. Afzal, T. Ahlgren, L. Aho-Mantila, N. Aiba, M. Airila, M. Akhtar, R. Albanese, M. Alderson-Martin, D. Alegre, S. Aleiferis, A. Aleksa, A.G. Alekseev, E. Alessi, P. Aleynikov, J. Algualcil, M. Ali, M. Allinson, B. Alper, E. Alves, G. Ambrosino, R. Ambrosino, V. Amosov, E.Andersson Sundén, P. Andrew, B.M. Angelini, C. Angioni, I. Antoniou, L.C. Appel, C. Appelbee, S. Aria, M. Ariola, G. Artaserse, W. Arter, V. Artigues, N. Asakura, A. Ash, N. Ashikawa, V. Aslanyan, M. Astrain, O. Asztalos, D. Auld, F. Auriemma, Y. Austin, L. Avotina, E. Aymerich, A. Baciero, F. Bairaktaris, J. Balbin, L. Balbinot, I. Balboa, M. Balden, C. Balshaw, N. Balshaw, V.K. Bandaru, J. Banks, Yu.F. Baranov, C. Barcellona, A. Barnard, M. Barnard, R. Barnsley, A. Barth, M. Baruzzo, S. Barwell, M. Bassan, A. Batista, P. Batistoni, L. Baumane, B. Bauvir, L. Baylor, P.S. Beaumont, D. Beckett, A. Begolli, M. Beidler, N. Bekris, M. Beldishevski, E. Belli, F. Belli, É. Belonohy, M. Ben Yaala, J. Benayas, J. Bentley, H. Bergsåker, J. Bernardo, M. Bernert, M. Berry, L. Bertalot, H. Betar, M. Beurskens, S. Bickerton, B. Bieg, J. Bielecki, A. Bierwage, T. Biewer, R. Bilato, P. Bílková, G. Birkenmeier, H. Bishop, J.P.S. Bizarro, J. Blackburn, P. Blanchard, P. Blatchford, V. Bobkov, A. Boboc, P. Bohm, T. Bohm, I. Bolshakova, T. Bolzonella, N. Bonanomi, D. Bonfiglio, X. Bonnin, P. Bonofiglo, S. Boocock, A. Booth, J. Booth, D. Borba, D. Borodin, I. Borodkina, C. Boulbe, C. Bourdelle, M. Bowden, K. Boyd, I.Božičević Mihalić, S.C. Bradnam, V. Braic, L. Brandt, R. Bravanec, B. Breizman, A. Brett, S. Brezinsek, M. Brix, K. Bromley, B. Brown, D. Brunetti, R. Buckingham, M. Buckley, R. Budny, J. Buermans, H. Bufferand, P. Buratti, A. Burgess, A. Buscarino, A. Busse, D. Butcher, E.de la Cal, G. Calabrò, L. Calacci, R. Calado, Y. Camenen, G. Canal, B. Cannas, M. Cappelli, S. Carcangiu, P. Card, A. Cardinali, P. Carman, D. Carnevale, M. Carr, D. Carralero, L. Carraro, I.S. Carvalho, P. Carvalho, I. Casiraghi, F.J. Casson, C. Castaldo, J.P. Catalan, N. Catarino, F. Causa, M. Cavedon, M. Cecconello, C.D. Challis, B. Chamberlain, C.S. Chang, A. Chankin, B. Chapman, M. Chernyshova, A. Chiariello, P. Chmielewski, A. Chomiczewska, L. Chone, G. Ciraolo, D. Ciric, J. Citrin, Ł. Ciupinski, M. Clark, R. Clarkson, C. Clements, M. Cleverly, J.P. Coad, P. Coates, A. Cobalt, V. Coccorese, R. Coelho, J.W. Coenen, I.H. Coffey, A. Colangeli, L. Colas, C. Collins, J. Collins, S. Collins, D. Conka, S. Conroy, B. Conway, N.J. Conway, D. Coombs, P. Cooper, S. Cooper, C. Corradino, G. Corrigan, D. Coster, P. Cox, T. Craciunescu, S. Cramp, C. Crapper, D. Craven, R. Craven, M.Crialesi Esposito, G. Croci, D. Croft, A. Croitoru, K. Crombé, T. Cronin, N. Cruz, C. Crystal, G. Cseh, A. Cufar, A. Cullen, M. Curuia, T. Czarski, H. Dabirikhah, A.Dal Molin, E. Dale, P. Dalgliesh, S. Dalley, J. Dankowski, P. David, A. Davies, S. Davies, G. Davis, K. Dawson, S. Dawson, I.E. Day, M. De Bock, G. De Temmerman, G. De Tommasi, K. Deakin, J. Deane, R. Dejarnac, D. Del Sarto, E. Delabie, D. Del-Castillo-Negrete, A. Dempsey, R.O. Dendy, P. Devynck, A. Di Siena, C. Di Troia, T. Dickson, P. Dinca, T. Dittmar, J. Dobrashian, R.P. Doerner, A.J.H. Donné, S. Dorling, S. Dormido-Canto, D. Douai, S. Dowson, R. Doyle, M. Dreval, P. Drewelow, P. Drews, G. Drummond, Ph. Duckworth, H. Dudding, R. Dumont, P. Dumortier, D. Dunai, T. Dunatov, M. Dunne, I. Ďuran, F. Durodié, R. Dux, A. Dvornova, R. Eastham, J. Edwards, Th. Eich, A. Eichorn, N. Eidietis, A. Eksaeva, H. El Haroun, G. Ellwood, C. Elsmore, O. Embreus, S. Emery, G. Ericsson, B. Eriksson, F. Eriksson, J. Eriksson, L.G. Eriksson, S. Ertmer, S. Esquembri, A.L. Esquisabel, T. Estrada, G. Evans, S. Evans, E. Fable, D. Fagan, M. Faitsch, M. Falessi, A. Fanni, A. Farahani, I. Farquhar, A. Fasoli, B. Faugeras, S. Fazinić, F. Felici, R. Felton, A. Fernandes, H. Fernandes, J. Ferrand, D.R. Ferreira, J. Ferreira, G. Ferrò, J. Fessey, O. Ficker, A.R. Field, A. Figueiredo, J. Figueiredo, A. Fil, N. Fil, P. Finburg, D. Fiorucci, U. Fischer, G. Fishpool, L. Fittill, M. Fitzgerald, D. Flammini, J. Flanagan, K. Flinders, S. Foley, N. Fonnesu, M. Fontana, J.M. Fontdecaba, S. Forbes, A. Formisano, T. Fornal, L. Fortuna, E. Fortuna-Zalesna, M. Fortune, C. Fowler, E. Fransson, L. Frassinetti, M. Freisinger, R. Fresa, R. Fridström, D. Frigione, T. Fülöp, M. Furseman, V. Fusco, S. Futatani, D. Gadariya, K. Gál, D. Galassi, K. Gałązka, S. Galeani, D. Gallart, R. Galvão, Y. Gao, J. Garcia, M. García-Muñoz, M. Gardener, L. Garzotti, J. Gaspar, R. Gatto, P. Gaudio, D. Gear, T. Gebhart, S. Gee, M. Gelfusa, R. George, S.N. Gerasimov, G. Gervasini, M. Gethins, Z. Ghani, M. Gherendi, F. Ghezzi, J.C. Giacalone, L. Giacomelli, G. Giacometti, C. Gibson, K.J. Gibson, L. Gil, A. Gillgren, D. Gin, E. Giovannozzi, C. Giroud, R. Glen, S. Glöggler, J. Goff, P. Gohil, V. Goloborodko, R. Gomes, B. Gonçalves, M. Goniche, A. Goodyear, S. Gore, G. Gorini, T. Görler, N. Gotts, R. Goulding, E. Gow, B. Graham, J.P. Graves, H. Greuner, B. Grierson, J. Griffiths, S. Griph, D. Grist, W. Gromelski, M. Groth, R. Grove, M. Gruca, D. Guard, N. Gupta, C. Gurl, A. Gusarov, L. Hackett, S. Hacquin, R. Hager, L. Hägg, A. Hakola, M. Halitovs, S. Hall, S.A. Hall, S. Hallworth-Cook, C.J. Ham, D. Hamaguchi, M. Hamed, C. Hamlyn-Harris, K. Hammond, E. Harford, J.R. Harrison, D. Harting, Y. Hatano, D.R. Hatch, T. Haupt, J. Hawes, N.C. Hawkes, J. Hawkins, T. Hayashi, S. Hazael, S. Hazel, P. Heesterman, B. Heidbrink, W. Helou, O. Hemming, S.S. Henderson, R.B. Henriques, D. Hepple, J. Herfindal, G. Hermon, J. Hill, J.C. Hillesheim, K. Hizanidis, A. Hjalmarsson, A. Ho, J. Hobirk, O. Hoenen, C. Hogben, A. Hollingsworth, S. Hollis, E. Hollmann, M. Hölzl, B. Homan, M. Hook, D. Hopley, J. Horáček, D. Horsley, N. Horsten, A. Horton, L.D. Horton, L. Horvath, S. Hotchin, R. Howell, Z. Hu, A. Huber, V. Huber, T. Huddleston, G.T.A. Huijsmans, P. Huynh, A. Hynes, M. Iliasova, D. Imrie, M. Imríšek, J. Ingleby, P. Innocente, K. Insulander Björk, N. Isernia, I. Ivanova-Stanik, E. Ivings, S. Jablonski, S. Jachmich, T. Jackson, P. Jacquet, H. Järleblad, F. Jaulmes, J.Jenaro Rodriguez, I. Jepu, E. Joffrin, R. Johnson, T. Johnson, J. Johnston, C. Jones, G. Jones, L. Jones, N. Jones, T. Jones, A. Joyce, R. Juarez, M. Juvonen, P. Kalniņa, T. Kaltiaisenaho, J. Kaniewski, A. Kantor, A. Kappatou, J. Karhunen, D. Karkinsky, Yu Kashchuk, M. Kaufman, G. Kaveney, Ye.O. Kazakov, V. Kazantzidis, D.L. Keeling, R. Kelly, M. Kempenaars, C. Kennedy, D. Kennedy, J. Kent, K. Khan, E. Khilkevich, C. Kiefer, J. Kilpeläinen, C. Kim, Hyun-Tae Kim, S.H. Kim, D.B. King, R. King, D. Kinna, V.G. Kiptily, A. Kirjasuo, K.K. Kirov, A. Kirschner, T. kiviniemi, G. Kizane, M. Klas, C. Klepper, A. Klix, G. Kneale, M. Knight, P. Knight, R. Knights, S. Knipe, M. Knolker, S. Knott, M. Kocan, F. Köchl, I. Kodeli, Y. Kolesnichenko, Y. Kominis, M. Kong, V. Korovin, B. Kos, D. Kos, H.R. Koslowski, M. Kotschenreuther, M. Koubiti, E. Kowalska-Strzęciwilk, K. Koziol, A. Krasilnikov, V. Krasilnikov, M. Kresina, K. Krieger, N. Krishnan, A. Krivska, U. Kruezi, I. Książek, A.B. Kukushkin, H. Kumpulainen, T. Kurki-Suonio, H. Kurotaki, S. Kwak, O.J. Kwon, L. Laguardia, E. Lagzdina, A. Lahtinen, A. Laing, N. Lam, H.T. Lambertz, B. Lane, C. Lane, E.Lascas Neto, E. Łaszyńska, K.D. Lawson, A. Lazaros, E. Lazzaro, G. Learoyd, Chanyoung Lee, S.E. Lee, S. Leerink, T. Leeson, X. Lefebvre, H.J. Leggate, J. Lehmann, M. Lehnen, D. Leichtle, F. Leipold, I. Lengar, M. Lennholm, E. Leon Gutierrez, B. Lepiavko, J. Leppänen, E. Lerche, A. Lescinskis, J. Lewis, W. Leysen, L. Li, Y. Li, J. Likonen, Ch. Linsmeier, B. Lipschultz, X. Litaudon, E. Litherland-Smith, F. Liu, T. Loarer, A. Loarte, R. Lobel, B. Lomanowski, P.J. Lomas, J.M. López, R. Lorenzini, S. Loreti, U. Losada, V.P. Loschiavo, M. Loughlin, Z. Louka, J. Lovell, T. 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Zocco, A. Zohar, V. Zoita, S. Zoletnik, V.K. Zotta, I. Zoulias, W. Zwingmann, I. Zychor, VTT Technical Research Centre of Finland, Culham Science Centre, Princeton Plasma Physics Laboratory, Department of Applied Physics, Uppsala University, European Commission, Forschungszentrum Jülich, Universidade Lisboa, Fusion and Plasma Physics, University of Milan - Bicocca, General Atomics, ITER, University of Toyama, CEA, Oak Ridge National Laboratory, Technical University of Madrid, Swiss Federal Institute of Technology Lausanne, Dutch Institute for Fundamental Energy Research, Royal Military Academy, Seoul National University, Chalmers University of Technology, Max-Planck-Institut für Plasmaphysik, KTH Royal Institute of Technology, Aalto-yliopisto, Aalto University, JET Contributor, Mailloux, Joelle, Chiariello, Andrea, Martone, Raffaele, Formisano, Alessandro, Mattei, Massimiliano, Faculdade de Engenharia, Universitat Politècnica de Catalunya. 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H, Weiland, M, Weisen, H, Weiszflog, M, Welch, P, Wendler, N, West, A, Wheatley, M, Wheeler, S, Whitehead, A, Whittaker, D, Widdowson, A, Wiesen, S, Wilkinson, J, Williams, J, Willoughby, D, Wilson, I, Wilson, J, Wilson, T, Wischmeier, M, Wise, P, Withenshaw, G, Withycombe, A, Witts, D, Wojcik-Gargula, A, Wolfrum, E, Wood, R, Woodley, C, Woodley, R, Woods, B, Wright, J, Xu, T, Yadikin, D, Yajima, M, Yakovenko, Y, Yang, Y, Yanling, W, Yanovskiy, V, Young, I, Young, R, Zabolockis, R, Zacks, J, Zagorski, R, Zaitsev, F, Zakharov, L, Zarins, A, Fernandez, D, Zastrow, K, Zayachuk, Y, Zerbini, M, Zhang, W, Zhou, Y, Zlobinski, M, Zocco, A, Zohar, A, Zoita, V, Zoletnik, S, Zotta, V, Zoulias, I, Zwingmann, W, and Zychor, I
- Subjects
Technology ,TOKAMAKS ,PLASMAS ,overview ,CONFINEMENT ,plasma facing components (PFC) ,ILW ,tritium operations ,d-t preparation ,deuterium ,D–T preparation ,nuclear technology ,JET with ITER-like wall ,isotope ,Física::Física de fluids::Física de plasmes [Àrees temàtiques de la UPC] ,Settore FIS/01 ,GAS HANDLING-SYSTEM ,JET ,Overview ,ITER-like wall (ILW) ,D-T preparation ,energetic particles ,scenario development ,Shattered Pellet Injection (SPI) ,plasma-wall interactions (PWI) ,tritium ,Physics ,Settore ING-IND/18 - Fisica dei Reattori Nucleari ,shutdown dose-rate ,gas handling-system ,Condensed Matter Physics ,simulation ,Fusion, Plasma and Space Physics ,ilw ,confinement ,Physical Sciences ,SIMULATION ,JET with ITER-like wallisotope ,ddc:620 ,performance ,plasma facing components (pfc) ,Nuclear and High Energy Physics ,DEUTERIUM ,jet with iter-like wall ,Fusion, plasma och rymdfysik ,Physics, Fluids & Plasmas ,BERYLLIUM ,divertor ,TRITIUM ,Science & Technology ,Reactors de fusió ,tritium operation ,Nuclear energy ,PERFORMANCE ,beryllium ,SHUTDOWN DOSE-RATE ,Fusion reactors ,Physics and Astronomy ,JET programme ,Energia nuclear ,DIVERTOR ,ddc:600 - Abstract
The JET 2019–2020 scientific and technological programme exploited the results of years of concerted scientific and engineering work, including the ITER-like wall (ILW: Be wall and W divertor) installed in 2010, improved diagnostic capabilities now fully available, a major neutral beam injection upgrade providing record power in 2019–2020, and tested the technical and procedural preparation for safe operation with tritium. Research along three complementary axes yielded a wealth of new results. Firstly, the JET plasma programme delivered scenarios suitable for high fusion power and alpha particle (a) physics in the coming D–T campaign (DTE2), with record sustained neutron rates, as well as plasmas for clarifying the impact of isotope mass on plasma core, edge and plasma-wall interactions, and for ITER pre-fusion power operation. The efficacy of the newly installed shattered pellet injector for mitigating disruption forces and runaway electrons was demonstrated. Secondly, research on the consequences of long-term exposure to JET-ILW plasma was completed, with emphasis on wall damage and fuel retention, and with analyses of wall materials and dust particles that will help validate assumptions and codes for design and operation of ITER and DEMO. Thirdly, the nuclear technology programme aiming to deliver maximum technological return from operations in D, T and D–T benefited from the highest D–D neutron yield in years, securing results for validating radiation transport and activation codes, and nuclear data for ITER. This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014–2018 and 2019–2020 under Grant Agreement No. 633053. Peer Reviewed Article signat per 1223 autors/autores: J. Mailloux1, N. Abid1, K. Abraham1, P. Abreu2, O. Adabonyan1, P. Adrich3, V. Afanasev4, M. Afzal1, T. Ahlgren5, L. Aho-Mantila6, N. Aiba7, M. Airila6, M. Akhtar1, R. Albanese8, M. Alderson-Martin1, D. Alegre9, S. Aleiferis10, A. Aleksa1, A.G. Alekseev11, E. Alessi12, P. Aleynikov13, J. Algualcil14, M. Ali1, M. Allinson1, B. Alper1, E. Alves2, G. Ambrosino8, R. Ambrosino8, V. Amosov15, E.Andersson Sunden16, P. Andrew13, B.M. Angelini17, C. Angioni18, I. Antoniou1, L.C. Appel1, C. Appelbee1, S. Aria1, M. Ariola8, G. Artaserse17, W. Arter1, V. Artigues18, N. Asakura7, A. Ash1, N. Ashikawa19, V. Aslanyan20, M. Astrain21, O. Asztalos22, D. Auld1, F. Auriemma23, Y. Austin1, L. Avotina24, E. Aymerich25, A. Baciero9, F. Bairaktaris26, J. Balbin27, L. Balbinot23, I. Balboa1, M. Balden18, C. Balshaw1, N. Balshaw1, V.K. Bandaru18, J. Banks1, Yu.F. Baranov1, C. Barcellona28, A. Barnard1, M. Barnard1, R. Barnsley13, A. Barth1, M. Baruzzo17, S. Barwell1, M. Bassan13, A. Batista2, P. Batistoni17, L. Baumane24, B. Bauvir13, L. Baylor29, P.S. Beaumont1, D. Beckett1, A. Begolli1, M. Beidler29, N. Bekris30,31, M. Beldishevski1, E. Belli32, F. Belli17, É. Belonohy1, M. Ben Yaala33, J. Benayas1, J. Bentley1, H. Bergsåker34, J. Bernardo2, M. Bernert18, M. Berry1, L. Bertalot13, H. Betar35, M. Beurskens36, S. Bickerton1, B. Bieg37, J. Bielecki38, A. Bierwage7, T. Biewer29, R. Bilato18, P. Bílková39, G. Birkenmeier18, H. Bishop1, J.P.S. Bizarro2, J. Blackburn1, P. Blanchard40, P. Blatchford1, V. Bobkov18, A. Boboc1, P. Bohm39, T. Bohm41, I. Bolshakova42, T. Bolzonella23, N. Bonanomi18, D. Bonfiglio23, X. Bonnin13, P. Bonofiglo43, S. Boocock1, A. Booth1, J. Booth1, D. Borba2,30, D. Borodin44, I. Borodkina39,44, C. Boulbe45, C. Bourdelle27, M. Bowden1, K. Boyd1, I.Bozicevic Mihalic46, S.C. Bradnam1, V. Braic47, L. Brandt48, R. Bravanec49, B. Breizman50, A. Brett1, S. Brezinsek44, M. Brix1, K. Bromley1, B. Brown1, D. Brunetti1,12, R. Buckingham1, M. Buckley1, R. Budny, J. Buermans51, H. Bufferand27, P. Buratti17, A. Burgess1, A. Buscarino28, A. Busse1, D. Butcher1, E.de la Cal9, G. Calabrò52, L. Calacci53, R. Calado2, Y. Camenen54, G. Canal55, B. Cannas25, M. Cappelli17, S. Carcangiu25, P. Card1, A. Cardinali17, P. Carman1, D. Carnevale53, M. Carr1, D. Carralero9, L. Carraro23, I.S. Carvalho2, P. Carvalho2, I. Casiraghi56, F.J. Casson1, C. Castaldo17, J.P. Catalan14, N. Catarino2, F. Causa12, M. Cavedon18, M. Cecconello16, C.D. Challis1, B. Chamberlain1, C.S. Chang43, A. Chankin18, B. Chapman1,57, M. Chernyshova58, A. Chiariello8, P. Chmielewski58, A. Chomiczewska58, L. Chone59, G. Ciraolo27, D. Ciric1, J. Citrin60, Ł. Ciupinski61, M. Clark1, R. Clarkson1, C. Clements1, M. Cleverly1, J.P. Coad1, P. Coates1, A. Cobalt1, V. Coccorese8, R. Coelho2, J.W. Coenen44, I.H. Coffey62, A. Colangeli17, L. Colas27, C. Collins29, J. Collins1, S. Collins1, D. Conka24, S. Conroy16, B. Conway1, N.J. Conway1, D. Coombs1, P. Cooper1, S. Cooper1, C. Corradino28, G. Corrigan1, D. Coster18, P. Cox1, T. Craciunescu63, S. Cramp1, C. Crapper1, D. Craven1, R. Craven1, M.Crialesi Esposito48, G. Croci56, D. Croft1, A. Croitoru63, K. Crombe51,64, T. Cronin1, N. Cruz2, C. Crystal32, G. Cseh22, A. Cufar65, A. Cullen1, M. Curuia66, T. Czarski58, H. Dabirikhah1, A.Dal Molin56, E. Dale1, P. Dalgliesh1, S. Dalley1, J. Dankowski38, P. David18, A. Davies1, S. Davies1, G. Davis1, K. Dawson1, S. Dawson1, I.E. Day1, M. De Bock13, G. De Temmerman13, G. De Tommasi8, K. Deakin1, J. Deane1, R. Dejarnac39, D. Del Sarto35, E. Delabie29, D. Del-Castillo-Negrete29, A. Dempsey67, R.O. Dendy1,57, P. Devynck27, A. Di Siena18, C. Di Troia17, T. Dickson1, P. Dinca63, T. Dittmar44, J. Dobrashian1, R.P. Doerner68, A.J.H. Donne´69, S. Dorling1, S. Dormido-Canto70, D. Douai27, S. Dowson1, R. Doyle67, M. Dreval71, P. Drewelow36, P. Drews44, G. Drummond1, Ph. Duckworth13, H. Dudding1,72, R. Dumont27, P. Dumortier51, D. Dunai22, T. Dunatov46, M. Dunne18, I. Duran39, F. Durodie51, R. Dux18, A. Dvornova27, R. Eastham1, J. Edwards1, Th. Eich18, A. Eichorn1, N. Eidietis32, A. Eksaeva44, H. El Haroun1, G. Ellwood13, C. Elsmore1, O. Embreus73, S. Emery1, G. Ericsson16, B. Eriksson16, F. Eriksson74, J. Eriksson16, L.G. Eriksson75, S. Ertmer44, S. Esquembri21, A.L. Esquisabel76, T. Estrada9, G. Evans1, S. Evans1, E. Fable18, D. Fagan1, M. Faitsch18, M. Falessi17, A. Fanni25, A. Farahani1, I. Farquhar1, A. Fasoli40, B. Faugeras45, S. Fazinic46, F. Felici40, R. Felton1, A. Fernandes2, H. Fernandes2, J. Ferrand1, D.R. Ferreira2, J. Ferreira2, G. Ferrò53, J. Fessey1, O. Ficker39, A.R. Field1, A. Figueiredo2, J. Figueiredo2,30, A. Fil1, N. Fil1,20, P. Finburg1, D. Fiorucci23, U. Fischer31, G. Fishpool1, L. Fittill1, M. Fitzgerald1, D. Flammini17, J. Flanagan1, K. Flinders1, S. Foley1, N. Fonnesu17, M. Fontana40, J.M. Fontdecaba9, S. Forbes1, A. Formisano8, T. Fornal58, L. Fortuna28, E. Fortuna-Zalesna61, M. Fortune1, C. Fowler1, E. Fransson74, L. Frassinetti34, M. Freisinger44, R. Fresa8, R. Fridström34, D. Frigione53, T. Fülöp73, M. Furseman1, V. Fusco24, S. Futatani17, D. Gadariya77, K. Gál69, D. Galassi40, K. Gałazka58, S. 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Zychor3 // 1 United Kingdom Atomic Energy Authority, Culham Science Centre, Abingdon, Oxon, OX14 3DB, United Kingdom of Great Britain and Northern Ireland 2 Instituto de Plasmas e Fusao Nuclear, Instituto Superior Técnico, Universidade de Lisboa, 1049-001 Lisboa, Portugal 3 National Centre for Nuclear Research (NCBJ), 05-400 Otwock-Swierk, Poland 4 Ioffe Physico-Technical Institute, 26 Politekhnicheskaya, St Petersburg 194021, Russia 5 University of Helsinki, PO Box 43, FI-00014 University of Helsinki, Finland 6 VTT Technical Research Centre of Finland, PO Box 1000, FIN-02044 VTT, Finland 7 National Institutes for Quantum and Radiological Science and Technology, Naka, Ibaraki 311-0193, Japan 8 Consorzio CREATE, Via Claudio 21, 80125 Napoli, Italy 9 Laboratorio Nacional de Fusión, CIEMAT, Madrid, Spain 10 NCSR ‘Demokritos’ 153 10, Agia Paraskevi Attikis, Greece 11 NRC Kurchatov Institute, 1 Kurchatov Square, Moscow 123182, Russia 12 Institute for Plasma Science and Technology, CNR, via R. Cozzi 53, 20125 Milano, Italy 13 ITER Organization, Route de Vinon-sur-Verdon, CS 90 046, 13067 Saint Paul Lez Durance Cedex, France 14 Universidad Nacional de Educacion a Distancia, Dept Ingn Energet, Calle Juan del Rosal 12, E-28040 Madrid, Spain 15 Troitsk Insitute of Innovating and Thermonuclear Research (TRINITI), Troitsk 142190, Moscow Region, Russia 16 Department of Physics and Astronomy, Uppsala University, SE-75120 Uppsala, Sweden 17 Dip.to Fusione e Tecnologie per la Sicurezza Nucleare, ENEA C. R. Frascati, via E. Fermi 45, 00044 Frascati (Roma), Italy 18 Max-Planck-Institut für Plasmaphysik, D-85748 Garching, Germany 19 National Institute for Fusion Science, Oroshi, Toki, Gifu 509-5292, Japan 20 MIT Plasma Science and Fusion Center, Cambridge, MA 02139, United States of America 21 Universidad Politécnica de Madrid, Grupo I2A2, Madrid, Spain 22 Centre for Energy Research, POB 49, H-1525 Budapest, Hungary 23 Consorzio RFX, Corso Stati Uniti 4, 35127 Padova, Italy 24 University of Latvia, 19 Raina Blvd., Riga, LV 1586, Latvia 25 Department of Electrical and Electronic Engineering, University of Cagliari, Piazza d’Armi 09123 Cagliari, Italy 26 National Technical University of Athens, Iroon Politechniou 9, 157 73 Zografou, Athens, Greece 27 CEA, IRFM, F-13108 Saint Paul Lez Durance, France 28 Dipartimento di Ingegneria Elettrica Elettronica e Informatica, Università degli Studi di Catania, 95125 Catania, Italy 29 Oak Ridge National Laboratory, Oak Ridge, TN 37831, TN, United States of America 30 EUROfusion Programme Management Unit, Culham Science Centre, Culham, OX14 3DB, United Kingdom of Great Britain and Northern Ireland 31 Karlsruhe Institute of Technology, PO Box 3640, D-76021 Karlsruhe, Germany 32 General Atomics, PO Box 85608, San Diego, CA 92186-5608, United States of America 33 Department of Physics, University of Basel, Switzerland 34 Fusion Plasma Physics, EECS, KTH Royal Institute of Technology, SE-10044 Stockholm, Sweden 35 Institut Jean Lamour, UMR 7198, CNRS-Université de Lorraine, 54500 Vandoeuvre-lès-Nancy, France 36 Max-Planck-Institut für Plasmaphysik, Teilinsitut Greifswald, D-17491 Greifswald, Germany 37 Maritime University of Szczecin Faculty of Marine Engineering, Waly Chrobrego 1-2, 70-500 Szczecin, Poland 38 Institute of Nuclear Physics, Radzikowskiego 152, 31-342 Kraków, Poland 39 Institute of Plasma Physics of the CAS, Za Slovankou 1782/3, 182 00 Praha 8, Czech Republic 40 Ecole Polytechnique Fédérale de Lausanne (EPFL), Swiss Plasma Center (SPC), CH-1015 Lausanne, Switzerland 41 University of Wisconsin-Madison, Madison, WI 53706, United States of America 42 Magnetic Sensor Laboratory, Lviv Polytechnic National University, Lviv, Ukraine 43 Princeton Plasma Physics Laboratory, James Forrestal Campus, Princeton, NJ 08543, NJ, United States of America 44 Forschungszentrum Jülich GmbH, Institut für Energie- und Klimaforschung, Plasmaphysik, 52425 Jülich, Germany 45 Université Cote d’Azur, CNRS, Inria, LJAD, Parc Valrose, 06108 Nice Cedex 02, France 46 Ruder Boskovic Institute, Bijenicka 54, 10000 Zagreb, Croatia 47 The National Institute for Optoelectronics, Magurele-Bucharest, Romania 48 Mechanics, SCI, KTH SE-100 44 Stockholm, Sweden 49 Fourth State Research, 503 Lockhart Dr, Austin, TX, United States of America 50 University of Texas at Austin, Institute for Fusion Studies, Austin, TX 78712, United States of America 51 Laboratory for Plasma Physics LPP-ERM/KMS, B-1000 Brussels, Belgium 52 University of Tuscia, DEIM, Via del Paradiso 47, 01100 Viterbo, Italy 53 Università di Roma Tor Vergata, Via del Politecnico 1, Roma, Italy 54 Aix-Marseille University, CNRS, PIIM, UMR 7345, 13013 Marseille, France 55 Instituto de Física, Universidade de Sao Paulo, Rua do Mat˜ao Travessa R Nr.187, CEP 05508-090 Cidade Universitária, Sao Paulo, Brasil 56 University of Milano-Bicocca, Piazza della Scienza 3, 20126 Milano, Italy 57 Centre for Fusion, Space and Astrophysics, University of Warwick, Coventry, CV4 7AL, United Kingdom of Great Britain and Northern Ireland 58 Institute of Plasma Physics and Laser Microfusion, Hery 23, 01-497 Warsaw, Poland 59 Aalto University, PO Box 14100, FIN-00076 Aalto, Finland 60 FOM Institute DIFFER, Eindhoven, The Netherlands 61 Warsaw University of Technology, 02-507 Warsaw, Poland 62 Astrophysics Research Centre, School of Mathematics and Physics, Queen’s University, Belfast, BT7 1NN, United Kingdom of Great Britain and Northern Ireland 63 The National Institute for Laser, Plasma and Radiation Physics, Magurele-Bucharest, Romania 64 Department of Applied Physics, Ghent University, 9000 Ghent, Belgium 65 Slovenian Fusion Association (SFA), Jozef Stefan Institute, Jamova 39, SI-1000 Ljubljana, Slovenia 66 The National Institute for Cryogenics and Isotopic Technology, Ramnicu Valcea, Romania 67 Dublin City University (DCU), Dublin, Ireland 68 University of California at San Diego, La Jolla, CA 92093, United States of America 69 EUROfusion Programme Management Unit, Boltzmannstr. 2, 85748 Garching, Germany 70 UNED, Dpto. Informática y Automática, Madrid, Spain 71 National Science Center ‘Kharkov Institute of Physics and Technology’, Akademichna 1, Kharkiv 61108, Ukraine 72 York Plasma Institute, Department of Physics, University of York, York, YO10 5DD, United Kingdom of Great Britain and Northern Ireland 73 Department of Physics, Chalmers University of Technology, SE-41296 Gothenburg, Sweden 74 Department of Space, Earth and Environment, Chalmers University of Technology, SE-41296 Gothenburg, Sweden 75 European Commission, B-1049 Brussels, Belgium 76 University of Tennessee, Knoxville, TN 37996, TN, United States of America 77 Universitat Politècnica de Catalunya, Barcelona, Spain 78 Barcelona Supercomputing Center, Barcelona, Spain 79 Universidad de Sevilla, Sevilla, Spain 80 Aix-Marseille University, CNRS, IUSTI, UMR 7343, 13013 Marseille, France 81 Dipartimento di Ingegneria Astronautica, Elettrica ed Energetica, SAPIENZA Università di Roma, Via Eudossiana 18, 00184 Roma, Italy 82 Institute for Nuclear Research, Prospekt Nauky 47, Kyiv 03680, Ukraine 83 Studiecentrum voor Kernenergie—Centre d’Etude de l’Energie Nucléaire, Boeretang 200, 2400 Mol, Belgium 84 University of Toyama, Toyama, 930-8555, Japan 85 University of California, Irvine, Irvine, California 92697, United States of America 86 Department of Physics, Technical University of Denmark, Bldg 309, DK-2800 Kgs Lyngby, Denmark 87 Institution ‘Project Center ITER’, Moscow, 123182, Russia 88 Faculty of Mathematics, Department of Experimental Physics, Physics and Informatics Comenius University Mlynska dolina F2, 84248 Bratislava, Slovakia 89 University College Cork (UCC), Cork, Ireland 90 Institute of Physics, Opole University, Oleska 48, 45-052 Opole, Poland 91 Daegu University, Jillyang, Gyeongsan, Gyeongbuk 712-174, Republic of Korea 92 Department of Nuclear Engineering, Seoul National University, Seoul, Republic of Korea 93 Fusion for Energy Joint Undertaking, Josep Pl. 2, Torres Diagonal Litoral B3, 08019, Barcelona, Spain 94 PELIN LLC, 27a, Gzhatskaya Ulitsa, Saint Petersburg, 195220, Russia 95 Arizona State University, Tempe, AZ, United States of America 96 Politecnico di Torino, Corso Duca degli Abruzzi 24, I-10129 Torino, Italy 97 ICREA and Barcelona Supercomputing Center, Barcelona, Spain 98 Universidad Complutense de Madrid, Madrid, Spain 99 Istituto dei Sistemi Complessi—CNR and Dipartimento di Energia—Politecnico di Torino, C.so Duca degli Abruzzi 24, 10129 Torino, Italy 100 Eindhoven University of Technology, The Netherlands 101 Purdue University, 610 Purdue Mall, West Lafayette, IN 47907, United States of America 102 Department of Material Science, Shimane University, 1060 Nishikawatsu, Matsue, 690-8504, Japan 103 Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Brehová 78/7, 115 19 Praha 1, Czech Republic 104 College of William and Mary, Williamsburg, VA 23185, United States of America 105 University of California, 1111 Franklin St., Oakland, CA 94607, United States of America 106 University of Strathclyde, Glasgow, G4 0NG, United Kingdom of Great Britain and Northern Ireland 107 Kindai University, Higashi-Osaka, 577-8502, Japan 108 Shizuoka University, Shizuoka, 422-8529, Japan 109 Rudolf Peierls Centre for Theoretical Physics, University of Oxford, Oxford OX1 3PU, United Kingdom of Great Britain and Northern Ireland 110 Columbia University, New York, NY 10027, United States of America 111 Dipartimento di Fisica ‘G. Galilei’, Universita’ degli Studi di Padova, Padova, Italy 112 Space and Plasma Physics, EECS, KTH SE-100 44 Stockholm, Sweden 113 University of Ioannina, Panepistimioupoli Ioanninon, PO Box 1186, 45110 Ioannina, Greece 114 Universidade do Porto, Faculdade de Engenharia, 4200-465 Porto, Portugal 115 The University of Tokyo, Kashiwa, Chiba, 277-0882, Japan 116 Lithuanian Energy Institute, Breslaujos g. 3, LT-44403, Kaunas, Lithuania 117 HRS Fusion, West Orange, NJ, United States of America 118 Ibaraki University Graduate School of Science and Engineering, Mito, Ibaraki 310-8512, Japan 119 Technische Universität Wien, Fusion@ÖAW Österreichische Akademie der Wissenschaften (ÖAW), Austria
48. University of Campania Luigi Vanvitelli Reports Findings in Insulin Resistance (Tirzepatide prevents neurodegeneration through multiple molecular pathways)
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Medical research -- Reports ,Medicine, Experimental -- Reports ,Insulin resistance -- Research ,Type 2 diabetes -- Research ,Computers ,News, opinion and commentary - Abstract
2024 FEB 14 (VerticalNews) -- By a News Reporter-Staff News Editor at Computer Weekly News -- New research on Endocrine System Diseases and Conditions - Insulin Resistance is the subject [...]
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