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3. The magnetic diagnostic set for ITER

Author

Testa, D., Toussaint, M., Chavan, R., Guterl, J., Lister, J.B., Moret, J.-M., Perez, A., Sanchez, F., Schaller, B., Tonetti, G., Encheva, A., Vayakis, G., Walker, C., Fournier, Y., Maeder, T., Le-Luyer, A., Moreau, P., Chitarin, G., Alessi, E., Delogu, R.S., Gallo, A., Marconato, N., Peruzzo, S., Preindl, M., Carfantan, H., Hodgson, E., Romero, J., Vila, R., Brichard, B., and Vermeeren, L.

Subjects
Magnetohydrodynamics -- Analysis, Plasma devices -- Equipment and supplies, Plasma diagnostics -- Analysis, Technical institutes -- Equipment and supplies, Business, Chemistry, Electronics, Electronics and electrical industries, International Thermonuclear Experimental Reactor -- Equipment and supplies
Published
2010

4. Recomendaciones para la atención odontológica en situación de pandemia y pospandemia por SARS-COV-2

Author

Allende Posse, María, Arévalo, Paola, Bojanich, Alejandra, Bono, A., Busleiman, Federico, Castillo, Beatriz, Castillo, Graciela, Castillo, María Cristina, Ermoli, J., Flores, N., Gigena, Pablo, Girardi, Mónica, Gutvay, Ada, Herrera, Analía, Huespe Rico, Verónica, Irazuzta, María Laura, Martínez, Dora, Moriconi, E., Pereyra, María Eugenia, Priotto, Elba, Raya Tonetti, G., Rezzónico, M. S., Scatena, Gabriela, Vera, Mónica, and Zorrilla, Inés

Subjects
Aislamiento social, Emergencias odontológicas, Pandemia, Pandemic, SARS-CoV-2, Odontólogos, Post-pandemic, COVID-19, Cuarentena, Odontología, Infecciones cruzadas, Contagios, Recommendations, Práctica profesional, Dental care, Coronavirus, Recomendaciones, Pospandemia, Emergencia sanitaria
Abstract

La Odontología es una de las cinco profesiones más expuestas a contraer COVID-19, debido a la exposición -durante las actividades clínicas-al contacto con sangre, saliva, aerosoles, manipulación de sustancias potencialmente nocivas. El conocimiento de los riesgos propios de su entorno tiene como objetivo último evitar que los odontólogos y las personas vinculadas a la práctica profesional provoquen -por desconocimiento, inobservancia o falta de apropiación de los saberes-contagios y/o impactos desfavorables para ellos y el ambiente. Al minimizar el riesgo y la posibilidad de infecciones cruzadas se evitarán mayores contagios, en el contexto actual, sin desatender las emergencias odontológicas. publishedVersion Fil: Allende Posse, María. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Arévalo, Paola. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Bojanich, Alejandra. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Bono, A. Colegio Odontológico de la Provincia de Córdoba; Argentina. Fil: Busleiman, Federico. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Castillo, Beatriz. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Castillo, Graciela. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Castillo, María Cristina. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Ermoli, J. Colegio Odontológico de la Provincia de Córdoba; Argentina. Fil: Flores, N. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Gigena, Pablo. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Girardi, Mónica. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Gutvay, Ada. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Herrera, Analía. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Huespe Rico, Verónica. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Irazuzta, María Laura. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Martínez, Dora. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Moriconi, E. Provincia de Córdoba. Ministerio de Ciencia y Tecnología; Argentina. Fil: Pereyra, María Eugenia. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Priotto, Elba. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Raya Tonetti, G. Provincia de Córdoba. Ministerio de Ciencia y Tecnología; Argentina. Fil: Rezzónico, M. S. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Scatena, Gabriela. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Vera, Mónica. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina. Fil: Zorrilla, Inés. Universidad Nacional de Córdoba. Facultad de Odontología. Equipo de Investigación en Higiene y Bioseguridad y Centro de Bioseguridad; Argentina.

Published
2020

6. Recent results from the TCV tokamak

Author

Weisen, H., Hofmann, F., Dutch, M. J., Moret, J. -M., Lister, J. B., Pochelon, A., Pitts, R. A., Anton, M., Behn, R., Bernel, S., Bühlmann, F., Chavan, R., Duval, B. P., Fasel, D., Favre, A., Franke, S., Heym, A., Hollenstein, Ch., Isoz, P., Joye, B., Llobet, X., Marletaz, B., Marmillod, Ph., Martin, Y., Nieswand, Ch., Paris, P. J., Perez, A., Pietrzyk, Z. A., Sauter, O., Van Toledo, W., Tonetti, G., Tran, M. Q., Troyon, F., and Ward, D. J.

Published
1995
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9. DESIGN OF THE TCV TOKAMAK

Author

Tonetti, G., primary, Heym, A., additional, Hofmann, F., additional, Hollenstein, C., additional, Koechli, J., additional, Lahlou, K., additional, Lister, J.B., additional, Marmillod, Ph., additional, Mayor, J.M., additional, Magnin, J.C., additional, Marcus, F., additional, and Rage, R., additional

Published
1991
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10. The science program of the TCV tokamak: exploring fusion reactor and power plant concepts

Author

Coda, S., Albanese, R., Alberti, S., Ambrosino, R., Anand, H., Andrebe, Y., Ariola, M., Barton, J. E., Behn, R., Blanchard, P., Boedo, J. A., Bortolon, A., Braunmüller, F. H., Brémond, S., Brunner, S., Camenen, Y., Canal, G. P., Cooper, W. A., Cruz, N., De Baar, M., Decker, J., De Meijere, C. A., Duval, B. P., Fasoli, A., Federspiel, L., Felici, F., Fontana, M., Furno, I., Galperti, C., Garrido, I., Genoud, J., Goodman, T. P., Graves, J. P., Hennequin, P., Hogge, J. -Ph., Hommen, G., Huang, Z., Joye, B., Kamleitner, J., Karpushov, A., Kim, D., Kirneva, N., Krämer-Flecken, A., Labit, B., Lazzaro, E., Le, H. B., Lefevre, L., Li, F., Lipschultz, B., Lister, J. B., Llobet, X., Lunt, T., Malygin, A., Maljaars, E., Marini, C., Martin, Y., Mattei, M., Merle, A., Molina Cabrera, P. A., Moreau, D., Moret, J. -M., Morgan, T., Mustafin, N. A., Nespoli, F., Nouailletas, R., Nowak, S., Peysson, Y., Pironti, A., Pochelon, A., Porte, L., Reimerdes, H., Sauter, O., Schlatter, Ch., Schuster, E., Silva, M., Sinha, J., Stoltzfus-Dueck, T., Tál, B., Teplukhina, A. A., Testa, D., Theiler, C., Tonetti, G., Tran, M. Q., Tsui, C., Vermare, L., Vernay, T., Vijvers, W. A. J., Vu, N. M. T., Vuille, V., Weisen, H., Wenninger, R., Witrant, E., Laboratoire de Physique des Plasmas (LPP), Université Paris-Sud - Paris 11 (UP11)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École polytechnique (X)-Sorbonne Université (SU)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Coda, S., Albanese, R., Alberti, S., Ambrosino, R., Anand, H., Andrebe, Y., Ariola, M., Barton, J. E., Behn, R., Blanchard, P., Boedo, J. A., Bortolon, A., Braunmüller, F. H., Brémond, S., Brunner, S., Camenen, Y., Canal, G. P., Cooper, W. A., Cruz, N., De Baar, M., Decker, J., De Meijere, C. A., Duval, B. P., Fasoli, A., Federspiel, L., Felici, F., Fontana, M., Furno, I., Galperti, C., Garrido, I., Genoud, J., Goodman, T. P., Graves, J. P., Hennequin, P., Hogge, J. -Ph., Hommen, G., Huang, Z., Joye, B., Kamleitner, J., Karpushov, A., Kim, D., Kirneva, N., Krämer-Flecken, A., Labit, B., Lazzaro, E., Le, H. B., Lefevre, L., Li, F., Lipschultz, B., Lister, J. B., Llobet, X., Lunt, T., Malygin, A., Maljaars, E., Marini, C., Martin, Y., Mattei, M., Merle, A., Molina Cabrera, P. A., Moreau, D., Moret, J. -M., Morgan, T., Mustafin, N. A., Nespoli, F., Nouailletas, R., Nowak, S., Peysson, Y., Pironti, A., Pochelon, A., Porte, L., Reimerdes, H., Sauter, O., Schlatter, Ch., Schuster, E., Silva, M., Sinha, J., Stoltzfus-Dueck, T., Tál, B., Teplukhina, A. A., Testa, D., Theiler, C., Tonetti, G., Tran, M. Q., Tsui, C., Vermare, L., Vernay, T., Vijvers, W. A. J., Vu, N. M. T., Vuille, V., Weisen, H., Wenninger, R., Witrant, E., Hogge, J. P. h., Krämer Flecken, A., Mattei, Massimiliano, Moret, J. M., Schlatter, C. h., Stoltzfus Dueck, T., and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-École polytechnique (X)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects
Nuclear and High Energy Physics, Tokamak, DEMO, ITER, nuclear fusion, plasma, TCV, tokamak, Condensed Matter Physics, Cyclotron, Condensed Matter Physic, 7. Clean energy, Electron cyclotron resonance, law.invention, [PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph], Physics::Plasma Physics, law, Physics, Toroid, Divertor, Plasma, Fusion power, Computational physics, Heat flux, Atomic physics
Abstract

International audience; TCV is acquiring a new 1 MW neutral beam and 2 MW additional third-harmonic electron cyclotron resonance heating (ECRH) to expand its operational range. Its existing shaping and ECRH launching versatility was amply exploited in an eclectic 2013 campaign. A new sub-ms real-time equilibrium reconstruction code was used in ECRH control of NTMs and in a prototype shape controller. The detection of visible light from the plasma boundary was also successfully used in a position-control algorithm. A new bang-bang controller improved stability against vertical displacements. The RAPTOR real-time transport simulator was employed to control the current density profile using electron cyclotron current drive. Shot-by-shot internal inductance optimization was demonstrated by iterative learning control of the current reference trace. Systematic studies of suprathermal electrons and ions in the presence of ECRH were performed. The L?H threshold power was measured to be ?50?75% higher in both H and He than D, to increase with the length of the outer separatrix, and to be independent of the current ramp rate. Core turbulence was found to decrease from positive to negative edge triangularity deep into the core. The geodesic acoustic mode was studied with multiple diagnostics, and its axisymmetry was confirmed by a full toroidal mapping of its magnetic component. A new theory predicting a toroidal rotation component at the plasma edge, driven by inhomogeneous transport and geodesic curvature, was tested successfully. A new high-confinement mode (IN-mode) was found with an edge barrier in density but not in temperature. The edge gradients were found to govern the scaling of confinement with current, power, density and triangularity. The dynamical interplay of confinement and magnetohydrodynamic modes leading to the density limit in TCV was documented. The heat flux profile decay lengths and heat load profile on the wall were documented in limited plasmas. In the snowflake (SF) divertor configuration the heat flux profiles were documented on all four strike points. SF simulations with the EMC3-EIRENE code, including the physics of the secondary separatrix, underestimate the flux to the secondary strike points, possibly resulting from steady-state E × B drifts. With neon injection, radiation in a SF was 15% higher than in a conventional divertor. The novel triple-null and X-divertor configurations were also achieved in TCV.

Published
2015

11. An overview of recent results from the TCV Tokamak

Author

Goodman, T., Ahmed, S., Alberti, S., Andrèbe, Y., Angioni, C., Appert, K., Arnoux, G., Behn, R., Blanchard, P., Bosshard, P., Camenen, Y., Chavan, R., Coda, S., Condrea, I., Degeling, A., Duval, B., Etienne, P., Fasel, D., Fasoli, A., Favez, J., Furno, I., Henderson, M., Hofmann, F., Hogge, J., Horacek, J., Isoz, P., Joye, B., Karpushov, A., Klimanov, I., Lavanchy, P., Lister, J., Llobet, X., Magnin, J., Manini, A., Marlétaz, B., Marmillod, P., Martin, Y., Martynov, A., Mayor, J., Mlynar, J., Moret, J., Nelson-Melby, E., Nikkola, P., Paris, P., Perez, A., Peysson, Y., Pitts, R., Pochelon, A., Porte, L., Raju, D., Reimerdes, H., Sauter, O., Scarabosio, A., Scavino, E., Seo, S., Siravo, U., Sushkov, A., Tonetti, G., Weisen, H., Wischmeier, M., Zabolotsky, A., and Zhuang, G.

Abstract

The TCV tokamak ( R = 0.88 m, κ = 2.5, are produced at low normalized current using far off-axis EC heating (ECH) and ECCD to broaden the current profile. Third harmonic heating is used to heat the plasma center where the second harmonic is in cut-off. Both second and third harmonic heating are used to heat H-mode plasmas, at the edge and center, respectively. The ELM frequency is decreased by the additional power but in separate experiments can be controlled by locking to an external perturbation current in the internal coils of TCV. Spatially resolved current profiles are measured at the inner and outer divertor targets by Langmuir probe arrays during ELMs. The strong, reasonably balanced currents are thought to be thermoelectric in origin.

Published
2003

13. The magnetic diagnostic set for ITER

Author

Testa, D., primary, Chavan, R., additional, Guterl, J., additional, Lister, J.B., additional, Moret, J-M., additional, Perez, A., additional, Sanchez, F., additional, Schaller, B., additional, Tonetti, G., additional, Toussaint, M., additional, Encheva, A., additional, Vayakis, G., additional, Walker, C., additional, Fournier, Y., additional, Maeder, T., additional, Le-Luyer, A., additional, Moreau, Ph., additional, Chitarin, G., additional, Delogu, R.S., additional, Gallo, A., additional, Marconato, N., additional, Peruzzo, S., additional, Carfantan, H., additional, Hodgson, E., additional, Romero, J., additional, Vila, R., additional, Brichard, B., additional, and Vermeeren, L., additional

Published
2009
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14. Baseline system design and prototyping for the ITER high-frequency magnetic diagnostics set

Author

Testa, D., primary, Chavan, R., additional, Guterl, J., additional, Lister, J.B., additional, Moret, J-M., additional, Perez, A., additional, Sanchez, F., additional, Schaller, B., additional, Tonetti, G., additional, Toussaint, M., additional, Encheva, A., additional, Vayakis, G., additional, Walker, C., additional, Fournier, Y., additional, Maeder, T., additional, and Carfantan, H., additional

Published
2009
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17. Safety factor profile requirements for electron ITB formation in TCV

Author

Goodman, T P, primary, Behn, R, additional, Camenen, Y, additional, Coda, S, additional, Fable, E, additional, Henderson, M A, additional, Nikkola, P, additional, Rossel, J, additional, Sauter, O, additional, Scarabosio, A, additional, Zucca, C, additional, Alberti, S, additional, Amorim, P, additional, Andrèbe, Y, additional, Appert, K, additional, Arnoux, G, additional, Bortolon, A, additional, Bottino, A, additional, Chavan, R, additional, Condrea, I, additional, Droz, E, additional, Duval, B P, additional, Etienne, P, additional, Fasel, D, additional, Fasoli, A, additional, Gulejová, B, additional, Hogge, J-P, additional, Horacek, J, additional, Isoz, P-F, additional, Joye, B, additional, Karpushov, A, additional, Kim, S H, additional, Klimanov, I, additional, Lavanchy, P, additional, Lister, J B, additional, Llobet, X, additional, Madeira, T, additional, Magnin, J-C, additional, Marinoni, A, additional, Márki, J, additional, Marlétaz, B, additional, Marmillod, P, additional, Martin, Y, additional, Martynov, An, additional, Maslov, M, additional, Mayor, J-M, additional, Moret, J-M, additional, Mück, A, additional, Paris, P J, additional, Pavlov, I, additional, Perez, A, additional, Pitts, R A, additional, Pochelon, A, additional, Porte, L, additional, Schlatter, Ch, additional, Schombourg, K, additional, Shidara, H, additional, Siegrist, M, additional, Siravo, U, additional, Sushkov, A V, additional, Tonetti, G, additional, Tran, M Q, additional, Weisen, H, additional, Wischmeier, M, additional, Zabolotsky, A, additional, Zhuang, G, additional, and Zhuchkova, A, additional

Published
2005
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19. An overview of results from the TCV tokamak

Author

Goodman, T.P, primary, Ahmed, S.M, additional, Alberti, S, additional, Andrèbe, Y, additional, Angioni, C, additional, Appert, K, additional, Arnoux, G, additional, Behn, R, additional, Blanchard, P, additional, Bosshard, P, additional, Camenen, Y, additional, Chavan, R, additional, Coda, S, additional, Condrea, I, additional, Degeling, A, additional, Duval, B.P, additional, Etienne, P, additional, Fasel, D, additional, Fasoli, A, additional, Favez, J.-Y, additional, Furno, I, additional, Henderson, M, additional, Hofmann, F, additional, Hogge, J.-P, additional, Horacek, J, additional, Isoz, P, additional, Joye, B, additional, Karpushov, A, additional, Klimanov, I, additional, Lavanchy, P, additional, Lister, J.B, additional, Llobet, X, additional, Magnin, J.-C, additional, Manini, A, additional, Marlétaz, B, additional, Marmillod, P, additional, Martin, Y, additional, Martynov, An, additional, Mayor, J.-M, additional, Mlynar, J, additional, Moret, J.-M, additional, Nelson-Melby, E, additional, Nikkola, P, additional, Paris, P.J, additional, Perez, A, additional, Peysson, Y, additional, Pitts, R.A, additional, Pochelon, A, additional, Porte, L, additional, Raju, D, additional, Reimerdes, H, additional, Sauter, O, additional, Scarabosio, A, additional, Scavino, E, additional, Seo, S.H, additional, Siravo, U, additional, Sushkov, A, additional, Tonetti, G, additional, Tran, M.Q, additional, Weisen, H, additional, Wischmeier, M, additional, Zabolotsky, A, additional, and Zhuang, G, additional

Published
2003
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20. Accessibility and properties of ELMy H-mode and ITB plasmas in TCV

Author

Martin, Y R, primary, Henderson, M A, additional, Alberti, S, additional, Amorim, P, additional, Andrebe, Y, additional, Appert, K, additional, Arnoux, G, additional, Behn, R, additional, Blanchard, P, additional, Bosshard, P, additional, Bottino, A, additional, Camenen, Y, additional, Chavan, R, additional, Coda, S, additional, Condrea, I, additional, Degeling, A W, additional, Dokouka, V N, additional, Duval, B P, additional, Fasel, D, additional, Fasoli, A, additional, Favez, J-Y, additional, Ferrando, S, additional, Goodman, T P, additional, Hogge, J-P, additional, Horacek, J, additional, Isoz, P, additional, Joye, B, additional, Karpushov, A, additional, Khayrutdinov, R R, additional, Klimanov, I, additional, Lister, J B, additional, Llobet, X, additional, Lukash, V E, additional, Madeira, T, additional, Marletaz, B, additional, Marmillod, P, additional, Martynov, A A, additional, Medvedev, S Yu, additional, Moret, J-M, additional, Nelson-Melby, E, additional, Nikkola, P, additional, Paris, P J, additional, Perez, A, additional, Pitts, R A, additional, Pochelon, A, additional, Porte, L, additional, Sauter, O, additional, Scarabosio, A, additional, Scavino, E, additional, Seo, S-H, additional, Siravo, U, additional, Tonetti, G, additional, Tran, M Q, additional, Villard, L, additional, Weisen, H, additional, Wischmeier, M, additional, Zabolotsky, A, additional, and Zhuang, G, additional

Published
2003
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22. Recent results from the electron cyclotron heated plasmas in Tokamak à Configuration Variable (TCV)

Author

Henderson, M. A., primary, Alberti, S., additional, Angioni, C., additional, Arnoux, G., additional, Behn, R., additional, Blanchard, P., additional, Bosshard, P., additional, Camenen, Y., additional, Coda, S., additional, Condrea, I., additional, Goodman, T. P., additional, Hofmann, F., additional, Hogge, J.-Ph., additional, Karpushov, A., additional, Manini, A., additional, Martynov, An., additional, Moret, J.-M., additional, Nikkola, P., additional, Nelson-Melby, E., additional, Pochelon, A., additional, Porte, L., additional, Sauter, O., additional, Ahmed, S. M., additional, Andrèbe, Y., additional, Appert, K., additional, Chavan, R., additional, Degeling, A., additional, Duval, B. P., additional, Etienne, P., additional, Fasel, D., additional, Fasoli, A., additional, Favez, J.-Y., additional, Furno, I., additional, Horacek, J., additional, Isoz, P., additional, Joye, B., additional, Klimanov, I., additional, Lavanchy, P., additional, Lister, J. B., additional, Llobet, X., additional, Magnin, J.-C., additional, Marlétaz, B., additional, Marmillod, P., additional, Martin, Y., additional, Mayor, J.-M., additional, Mylnar, J., additional, Paris, P. J., additional, Perez, A., additional, Peysson, Y., additional, Pitts, R. A., additional, Raju, D., additional, Reimerdes, H., additional, Scarabosio, A., additional, Scavino, E., additional, Seo, S. H., additional, Siravo, U., additional, Sushkov, A., additional, Tonetti, G., additional, Tran, M. Q., additional, Weisen, H., additional, Wischmeier, M., additional, Zabolotsky, A., additional, and Yhuang, G., additional

Published
2003
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23. ECH physics and new operational regimes on TCV

Author

Moret, J-M, primary, Ahmed, S M, additional, Alberti, S, additional, Andrebe, Y, additional, Appert, K, additional, Arnoux, G, additional, Behn, R, additional, Blanchard, P, additional, Bosshard, P, additional, Camenen, Y, additional, Chavan, R, additional, Coda, S, additional, Condrea, I, additional, Degeling, A, additional, Duval, B P, additional, Fasel, D, additional, Fasoli, A, additional, Favez, J-Y, additional, Goodman, T, additional, Henderson, M, additional, Hofmann, F, additional, Hogge, J-P, additional, Horacek, J, additional, Isoz, P, additional, Joye, B, additional, Karpushov, A, additional, Klimanov, I, additional, Lister, J B, additional, Llobet, X, additional, Madeira, T, additional, Magnin, J-C, additional, Manini, A, additional, Marl taz, B, additional, Marmillod, P, additional, Martin, Y, additional, Martynov, A, additional, Mayor, J-M, additional, Mlynar, J, additional, Nelson-Melby, E, additional, Nikkola, P, additional, Paris, P J, additional, Perez, A, additional, Peysson, Y, additional, Pitts, R A, additional, Pochelon, A, additional, Porte, L, additional, Sauter, O, additional, Scarabosio, A, additional, Scavino, E, additional, Seo, S-H, additional, Siravo, U, additional, Sushkov, A, additional, Tonetti, G, additional, Tran, M Q, additional, Weisen, H, additional, Wischmeier, M, additional, Zabolotsky, A, additional, and Zhuang, G, additional

Published
2002
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24. Shape dependence of sawtooth inversion radii and profile peaking factors in TCV L mode plasmas

Author

Weisen, H, primary, Furno, I, additional, Alberti, S, additional, Angioni, C, additional, Appert, K, additional, Behn, R, additional, Blanchard, P, additional, Bosshard, P, additional, Coda, S, additional, Condrea, I, additional, Degeling, A, additional, Duval, B.P, additional, Gomez, P, additional, Goodman, T.P, additional, Henderson, M.A, additional, Hofmann, F, additional, Hogge, J.-P, additional, Joye, B, additional, Lister, J.B, additional, Llobet, X, additional, Manini, A, additional, Martin, Y, additional, Martynov, A, additional, Mayor, J.-M, additional, Minardi, E, additional, Mlynar, J, additional, Moret, J.-M, additional, Nikkola, P, additional, Pietrzyk, Z.A, additional, Pitts, R.A, additional, Pochelon, A, additional, Reimerdes, H, additional, Rommers, J.H, additional, Sauter, O, additional, Scavino, E, additional, Tonetti, G, additional, Tran, M.Q, additional, and Zabolotsky, A, additional

Published
2002
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25. Stability and energy confinement of highly elongated plasmas in TCV

Author

Hofmann, F, primary, Behn, R, additional, Coda, S, additional, Goodman, T P, additional, Henderson, M, additional, Lavanchy, P, additional, Marmillod, Ph, additional, Martin, Y, additional, Martynov, A, additional, Mlynar, J, additional, Moret, J-M, additional, Pochelon, A, additional, Reimerdes, H, additional, Sauter, O, additional, Alberti, S, additional, Angioni, C, additional, Appert, K, additional, Bakos, J, additional, Blanchard, P, additional, Bosshard, P, additional, Chavan, R, additional, Condrea, I, additional, Degeling, A, additional, Duval, B P, additional, Fasel, D, additional, Favez, J-Y, additional, Favre, A, additional, Furno, I, additional, Gomez, P, additional, Gorgerat, P, additional, Hogge, J-P, additional, Isoz, P-F, additional, Joye, B, additional, Klimanov, I, additional, Lister, J B, additional, Llobet, X, additional, Magnin, J-C, additional, Manini, A, additional, Marlétaz, B, additional, Mayor, J-M, additional, Nikkola, P, additional, Paris, P J, additional, Perez, A, additional, Pietrzyk, Z A, additional, Piffl, V, additional, Pitts, R A, additional, Scarabosio, A, additional, Scavino, E, additional, Sushkov, A, additional, Tonetti, G, additional, Tran, M Q, additional, Weisen, H, additional, and Zabolotsky, A, additional

Published
2001
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26. Overview of TCV results

Author

Weisen, H., primary, Alberti, S., additional, Angioni, C., additional, Appert, K., additional, Bakos, J., additional, Behn, R., additional, Blanchard, P., additional, Bosshard, P., additional, Chavan, R., additional, Coda, S., additional, Condrea, I., additional, Degeling, A., additional, Duval, B.P., additional, Fasel, D., additional, Favez, J.-Y., additional, Favre, A., additional, Furno, I., additional, Gomez, P., additional, Goodman, T.P., additional, Henderson, M.A., additional, Hofmann, F., additional, Kayruthdinov, R.R., additional, Lavanchy, P., additional, Lister, J.B., additional, Llobet, X., additional, Loarte, A., additional, Lukash, V.E., additional, Gorgerat, P., additional, Hogge, J.-P., additional, Isoz, P.-F., additional, Joye, B., additional, Magnin, J.-C., additional, Manini, A., additional, Marlétaz, B., additional, Marmillod, P., additional, Martin, Y., additional, Martynov, A., additional, Mayor, J.-M., additional, Minardi, E., additional, Mlynar, J., additional, Moret, J.-M., additional, Nikkola, P., additional, Paris, P.J., additional, Perez, A., additional, Peysson, Y., additional, Pietrzyk, Z.A., additional, Piffl, V., additional, Pitts, R.A., additional, Pochelon, A., additional, Reimerdes, H., additional, Rommers, J.H., additional, Sauter, O., additional, Scavino, E., additional, Sushkov, A., additional, Tonetti, G., additional, Tran, M.Q., additional, and Zabolotsky, A., additional

Published
2001
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27. Steady-state fully noninductive operation with electron cyclotron current drive and current profile control in the tokamak à configuration variable (TCV)

Author

Sauter, O., primary, Angioni, C., additional, Coda, S., additional, Gomez, P., additional, Goodman, T. P., additional, Henderson, M. A., additional, Hofmann, F., additional, Hogge, J.-P., additional, Moret, J.-M., additional, Nikkola, P., additional, Pietrzyk, Z. A., additional, Weisen, H., additional, Alberti, S., additional, Appert, K., additional, Bakos, J., additional, Behn, R., additional, Blanchard, P., additional, Bosshard, P., additional, Chavan, R., additional, Condrea, I., additional, Degeling, A., additional, Duval, B. P., additional, Fasel, D., additional, Favez, J.-Y., additional, Favre, A., additional, Furno, I., additional, Kayruthdinov, R. R., additional, Lavanchy, P., additional, Lister, J. B., additional, Llobet, X., additional, Lukash, V. E., additional, Gorgerat, P., additional, Isoz, P.-F., additional, Joye, B., additional, Magnin, J.-C., additional, Manini, A., additional, Marlétaz, B., additional, Marmillod, P., additional, Martin, Y. R., additional, Martynov, An., additional, Mayor, J.-M., additional, Minardi, E., additional, Mlynar, J., additional, Paris, P. J., additional, Perez, A., additional, Peysson, Y., additional, Piffl, V., additional, Pitts, R. A., additional, Pochelon, A., additional, Reimerdes, H., additional, Rommers, J. H., additional, Scavino, E., additional, Sushkov, A., additional, Tonetti, G., additional, Tran, M. Q., additional, and Zabolotsky, A., additional

Published
2001
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28. High-power ECH and fully non-inductive operation with ECCD in the TCV tokamak

Author

Coda, S, primary, Goodman, T P, additional, Henderson, M A, additional, Hofmann, F, additional, Pietrzyk, Z A, additional, Sauter, O, additional, Alberti, S, additional, Angioni, C, additional, Appert, K, additional, Behn, R, additional, Blanchard, P, additional, Bosshard, P, additional, Chavan, R, additional, Degeling, A, additional, Duval, B P, additional, Fasel, D, additional, Favre, A, additional, Furno, I, additional, Gomez, P, additional, Gorgerat, P, additional, Hogge, J-P, additional, Isoz, P-F, additional, Joye, B, additional, Lavanchy, P, additional, Lister, J B, additional, Llobet, X, additional, Magnin, J-C, additional, Manini, A, additional, Marlétaz, B, additional, Marmillod, P, additional, Martin, Y, additional, Martynov, An, additional, Mayor, J-M, additional, Mlynar, J, additional, Moret, J-M, additional, Nikkola, P, additional, Paris, P J, additional, Perez, A, additional, Peysson, Y, additional, Pitts, R A, additional, Pochelon, A, additional, Reimerdes, H, additional, Rommers, J H, additional, Scavino, E, additional, Sushkov, A, additional, Tonetti, G, additional, Tran, M Q, additional, Weisen, H, additional, and Zabolotsky, A, additional

Published
2000
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29. Steady-State Fully Noninductive Current Driven by Electron Cyclotron Waves in a Magnetically Confined Plasma

Author

Sauter, O., primary, Henderson, M. A., additional, Hofmann, F., additional, Goodman, T., additional, Alberti, S., additional, Angioni, C., additional, Appert, K., additional, Behn, R., additional, Blanchard, P., additional, Bosshard, P., additional, Chavan, R., additional, Coda, S., additional, Duval, B. P., additional, Fasel, D., additional, Favre, A., additional, Furno, I., additional, Gorgerat, P., additional, Hogge, J.-P., additional, Isoz, P.-F., additional, Joye, B., additional, Lavanchy, P., additional, Lister, J. B., additional, Llobet, X., additional, Magnin, J.-C., additional, Mandrin, P., additional, Manini, A., additional, Marlétaz, B., additional, Marmillod, P., additional, Martin, Y., additional, Mayor, J.-M., additional, Martynov, A. A., additional, Mlynar, J., additional, Moret, J.-M., additional, Nieswand, C., additional, Nikkola, P., additional, Paris, P., additional, Perez, A., additional, Pietrzyk, Z. A., additional, Pitts, R. A., additional, Pochelon, A., additional, Pochon, G., additional, Refke, A., additional, Reimerdes, H., additional, Rommers, J., additional, Scavino, E., additional, Tonetti, G., additional, Tran, M. Q., additional, Troyon, F., additional, and Weisen, H., additional

Published
2000
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30. Energy confinement and MHD activity in shaped TCV plasmas with localized electron cyclotron heating

Author

Pochelon, A, primary, Goodman, T.P, additional, Henderson, M, additional, Angioni, C, additional, Behn, R, additional, Coda, S, additional, Hofmann, F, additional, Hogge, J.-P, additional, Kirneva, N, additional, Martynov, A.A, additional, Moret, J.-M, additional, Pietrzyk, Z.A, additional, Porcelli, F, additional, Reimerdes, H, additional, Rommers, J, additional, Rossi, E, additional, Sauter, O, additional, Tran, M.Q, additional, Weisen, H, additional, Alberti, S, additional, Barry, S, additional, Blanchard, P, additional, Bosshard, P, additional, Chavan, R, additional, Duval, B.P, additional, Esipchuck, Y.V, additional, Fasel, D, additional, Favre, A, additional, Franke, S, additional, Furno, I, additional, Gorgerat, P, additional, Isoz, P.-F, additional, Joye, B, additional, Lister, J.B, additional, Llobet, X, additional, Magnin, J.-C, additional, Mandrin, P, additional, Manini, A, additional, Marlétaz, B, additional, Marmillod, P, additional, Martin, Y, additional, Mayor, J.-M, additional, Mlynar, J, additional, Nieswand, C, additional, Paris, P.J, additional, Perez, A, additional, Pitts, R.A, additional, Razumova, K.A, additional, Refke, A, additional, Scavino, E, additional, Sushkov, A, additional, Tonetti, G, additional, Troyon, F, additional, Toledo, W. Van, additional, and Vyas, P, additional

Published
1999
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32. Effect of plasma shape on confinement and MHD behaviour in TCV

Author

Weisen, H, primary, Alberti, S, additional, Berry, S, additional, Behn, R, additional, Blanchard, P, additional, Bosshard, P, additional, Bühlmann, F, additional, Chavan, R, additional, Coda, S, additional, Deschenaux, C, additional, Dutch, M J, additional, Duval, B P, additional, Fasel, D, additional, Favre, A, additional, Franke, S, additional, Furno, I, additional, Goodman, T, additional, Henderson, M, additional, Hofmann, F, additional, Hogge, J-Ph, additional, Isoz, P-F, additional, Joye, B, additional, Lister, J B, additional, Llobet, X, additional, Magnin, J-C, additional, Mandrin, P, additional, Marletaz, B, additional, Marmillod, P, additional, Martin, Y, additional, Mayor, J-M, additional, Moret, J-M, additional, Nieswand, Ch, additional, Paris, P, additional, Perez, A, additional, Pietrzyk, Z A, additional, Piffl, V, additional, Pitts, R A, additional, Pochelon, A, additional, Razumova, K, additional, Reimerdes, H, additional, Refke, A, additional, Rommers, J, additional, Roy, I, additional, Sauter, O, additional, Suttrop, W, additional, Toledo, W van, additional, Tonetti, G, additional, Tran, M Q, additional, Troyon, F, additional, Vyas, P, additional, and Ward, D J, additional

Published
1997
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33. Ohmic H-modes in the TCV tokamak

Author

Weisen, H, primary, Hofmann, F, additional, Dutch, M J, additional, Martin, Y, additional, Pochelon, A, additional, Moret, J-M, additional, Duval, B P, additional, Hirt, A, additional, Lister, J B, additional, Nieswand, Ch, additional, Pitts, R A, additional, Pietrzyk, Z A, additional, Anton, M, additional, Behn, R, additional, Besson, G, additional, Bühlmann, F, additional, Chavan, R, additional, Fasel, D, additional, Favre, A, additional, Franke, S, additional, Isoz, P, additional, Lavanchy, P, additional, Joye, B, additional, Llobet, X, additional, Mandrin, P, additional, Marletaz, B, additional, Marmillod, Ph, additional, Magnin, J C, additional, Mayor, J-M, additional, Paris, P J, additional, Perez, A, additional, Sauter, O, additional, Toledo, W van, additional, Tonetti, G, additional, Tran, M Q, additional, Troyon, F, additional, and Ward, D J, additional

Published
1996
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34. Ohmic H-mode and confinement in TCV

Author

Moret, J -M, primary, Anton, M, additional, Barry, S, additional, Behn, R, additional, Besson, G, additional, Buhlmann, F, additional, Burri, A, additional, Chavan, R, additional, Corboz, M, additional, Deschenaux, C, additional, Dutch, M J, additional, Duval, B P, additional, Fasel, D, additional, Favre, A, additional, Franke, S, additional, Hirt, A, additional, Hofmann, F, additional, Hollenstein, C, additional, Isoz, P -F, additional, Joye, B, additional, Lister, J B, additional, Llobet, X, additional, Magnin, J -C, additional, Mandrin, P, additional, Marletaz, B, additional, Marmillod, P, additional, Martin, Y, additional, Mayor, J -M, additional, Moravec, J, additional, Nieswand, C, additional, Paris, P J, additional, Perez, A, additional, Pietrzyk, Z A, additional, Piffl, V, additional, Pitts, R A, additional, Pochelon, A, additional, Sauter, O, additional, Toledo, W van, additional, Tonetti, G, additional, Tran, M Q, additional, Troyon, F, additional, Ward, D J, additional, and Weisen, H, additional

Published
1995
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35. Creation and control of variably shaped plasmas in TCV

Author

Hofmann, F, primary, Lister, J B, additional, Anton, W, additional, Barry, S, additional, Behn, R, additional, Bernel, S, additional, Besson, G, additional, Buhlmann, F, additional, Chavan, R, additional, Corboz, M, additional, Dutch, M J, additional, Duval, B P, additional, Fasel, D, additional, Favre, A, additional, Franke, S, additional, Heym, A, additional, Hirt, A, additional, Hollenstein, C, additional, Isoz, P, additional, Joye, B, additional, Llobet, X, additional, Magnin, J C, additional, Marletaz, B, additional, Marmillod, P, additional, Martin, Y, additional, Mayor, J M, additional, Moret, J M, additional, Nieswand, C, additional, Paris, P J, additional, Perez, A, additional, Pietrzyk, Z A, additional, Pitts, R A, additional, Pochelon, A, additional, Rage, R, additional, Sauter, O, additional, Tonetti, G, additional, Tran, M Q, additional, Troyon, F, additional, Ward, D J, additional, and Weisen, H, additional

Published
1994
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37. Tokamak equilibrium reconstruction using Faraday rotation measurements

Author

Hofmann, F. and Tonetti, G.

Abstract

A new equilibrium reconstruction procedure using magnetic, line integrated electron density and Faraday rotation measurements has been developed. The method has been applied to a number of elongated tokamak equilibria which were computed by using a free-boundary MHD equilibrium code. Typical errors in four global plasma parameters (?p, i, ? and q0) are evaluated as functions of the measurement errors and the number of source function parameters. Assuming realistic random perturbations in the measurements, the method allows source functions with up to six independent parameters to be reconstructed. It is shown that, when electron density and Faraday rotation measurements are included, the accuracy in the determination of q0is increased by at least a factor of two, compared with cases without Faraday rotation data. The effects of adding a diamagnetic probe and of varying the plasma elongation are also investigated.

Published
1988
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38. Fast identification of plasma boundary and X-points in elongated tokamaks

Author

Hofmann, F. and Tonetti, G.

Abstract

A new method of identifying the plasma boundary and X-points in elongated tokamaks is presented. The method uses a finite element representation of the plasma current. It is applied to a number of computed equilibria with various shapes and elongations up to b/a = 3. Errors in the flux, magnetic field and coil current measurements are simulated by adding random perturbations to the values obtained from the equilibrium code. The method appears to be sufficiently accurate and fast for real-time shape control.

Published
1988
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39. Energy confinement in JET ohmically heated plasmas

Author

Bartlett, D.V., Bickerton, R.J., Brusati, M., Campbell, D.J., Christiansen, J.P., Cordey, J.G., Corti, S., Costley, A.E., Edwards, A., Fessey, J., Gadeberg, M., Gibson, A., Gill, R.D., Gottardi, N., Gondhalekar, A., Gowers, C.W., Hendriks, F., Jarvis, O.N., Källne, E., Källne, J., Kissel, S., De Kock, L.C.J.M., Krause, H., Lazzaro, E., Lomas, P.J., Mast, F.K., Morgan, P.D., Nielsen, P., Prentice, R., Ross, R.T., O'Rourke, J., Sadler, G., Schüller, F.C., Stamp, M.F., Stott, P.E., Summers, D.R., Tanga, A., Taroni, A., Thomas, P.R., Tibone, F., Tonetti, G., Tubbing, B.J.D., and Watkins, M.L.

Abstract

The energy confinement properties of ohmically heated JET discharges are discussed in detail, from both a local and a global point of view. Also, the plasma resistivity and poloidal field diffusion are discussed in some detail.

Published
1988
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40. Energy transport in JET with ohmic and auxiliary heating

Author

Thomsen, K., Bartlett, D., Bhatnagar, V., Bickerton, R., Brusati, M., Bures, M., Campbell, D., Christiansen, J., Cordey, J., Corti, S., Costley, A., Cottrell, G., Duesing, G., Edwards, A., Ejima, S., Fessey, J., Gadeberg, M., Gibson, A., Gill, R., Gottardi, N., Gondhalekar, A., Gowers, C., Hendricks, F., Jacquinot, J., Jarvis, O., Kallne, E., Kallne, J., Kissel, S., de Kock, L., Lallia, P., Lazzaro, E., Lomas, P., Morgan, P., Nielsen, P., Prentice, R., Ross, R., O'Rourke, J., Sadler, G., Schüller, F., Stäbler, A., Stamp, M., Stott, P., Summers, D., Tanga, A., Taroni, A., Thomas, P., Thompson, E., Tibone, F., Tonetti, G., Tubbing, B., and Watkins, M.

Published
1986

41. Measurement of the energy content of the JET tokamak plasma with a diamagnetic loop.

Author

Tonetti, G., Christiansen, J. P., and de Kock, L.

Subjects
*TOKAMAKS, *DIAMAGNETISM, *PLASMA gases
Abstract

An accurate and reliable measurement of poloidal β is essential to assess the performances of Joint European Torus (JET). The diamagnetic loop can measure β values as low as 0.1 in JET discharges with a plasma current larger than 2 × 10[sup 6] A. The instrumentation used includes a flux loop rigidly fitted on a toroidal field (TF) coil, a large Rogowski coil measuring the TF busbar current, and a displacement gauge measuring the TF coil expansion. The fluxes to be compensated originate, in order of importance, from the TF current, the eddy current in the vessel, the TF coil expansion, and the stray coupling with the poloidal fields. The TF and eddy currents must be particularly well compensated on JET since the plasma current starts before the toroidal field has reached its plateau value. Comparison between the diamagnetic and other evaluations of β shows a good agreement. [ABSTRACT FROM AUTHOR]

Published
1986
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45. Recent results from TCV

Author

Nieswand, Ch., Hofmann, F., Lister, J.B., Anton, M., Behn, R., Deschenaux, Ch., Dutch, M.J., Duval, B.P., Franke, S., Joye, B., LLobet, X., Martin, Y., Moret, J.M., Pietrzyk, Z.A., Pitts, R.A., Pochelon, A., van.Toledo, W., Tonetti, G., M.Q., Tran, D.J., Ward, and Weisen, H.

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