Results 11 to 20 of about 4,138 (179)
Overview of the TCV tokamak experimental programme [PDF]
Nuclear Fusion, 2022 Abstract The tokamak à configuration variable (TCV) continues to leverage its unique shaping capabilities, flexible heating systems and modern control system to address critical issues in preparation for ITER and a fusion power plant.Reimerdes, H., Agostini, M., Alessi, E., Alberti, S., Andrebe, Y., Arnichand, H., Balbin, J., Bagnato, F., Baquero-Ruiz, M., Bernert, M., Bin, W., Blanchard, P., Blanken, T. C., Boedo, J. A., Brida, D., Brunner, S., Bogar, C., Bogar, O., Bolzonella, T., Bombarda, F., Bouquey, F., Bowman, C., Brunetti, D., Buermans, J., Bufferand, H., Calacci, L., Camenen, Y., Carli, S., Carnevale, D., Carpanese, F., Causa, F., Cavalier, J., Cavedon, M., Cazabonne, J. A., Cerovsky, J., Chandra, R., Jayalekshmi, A., Chandrarajan, Chellai, O., Chmielewski, P., Choi, D., Ciraolo, G., Classen, I. G. J., Coda, S., Colandrea, C., Dal, Molin, A., David, P., de Baar, M. R., Decker, J., Dekeyser, W., de Oliveira, H., Douai, D., Dreval, M., Dunne, M. G., Duval, B. P., Elmore, S., Embreus, O., Eriksson, F., Faitsch, M., Falchetto, G., Farnik, M., Fasoli, A., Fedorczak, N., Felici, F., Fevrier, O., Ficker, O., Fil, A., Fontana, M., Fransson, E., Frassinetti, L., Furno, I, Gahle, D. S., Galassi, D., Galazka, K., Galperti, C., Garavaglia, S., Garcia-Munoz, M., Geiger, B., Giacomin, M., Giruzzi, G., Gobbin, M., Golfinopoulos, T., Goodman, T., Gorno, S., Granucci, G., Graves, J. P., Griener, M., Gruca, M., Gyergyek, T., Haelterman, R., Hakola, A., Han, W., Happel, T., Harrer, G., Harrison, J. R., Henderson, S., Hogeweij, G. M. D., Hogge, J-P, Hoppe, M., Horacek, J., Huang, Z., Iantchenko, A., Innocente, P., Bjork, K. Insulander, Ionita-Schrittweiser, C., Isliker, H., Jardin, A., Jaspers, R. J. E., Karimov, R., Karpushov, A. N., Kazakov, Y., Komm, M., Kong, M., Kovacic, J., Krutkin, O., Kudlacek, O., Kumar, U., Kwiatkowski, R., Labit, B., Laguardia, L., Lammers, J. T., Laribi, E., Laszynska, E., Lazaros, A., Linder, O., Linehan, B., Lipschultz, B., Llobet, X., Loizu, J., Lunt, T., Macusova, E., Marandet, Y., Maraschek, M., Marceca, G., Marchetto, C., Marchioni, S., Marmar, E. S., Martin, Y., Martinelli, L., Matos, F., Maurizio, R., Mayoral, M-L, Mazon, D., Menkovski, V, Merle, A., Merlo, G., Meyer, H., Mikszuta-Michalik, K., Cabrera, P. A. Molina, Morales, J., Moret, J-M, Moro, A., Moulton, D., Muhammed, H., Myatra, O., Mykytchuk, D., Napoli, F., Nem, R. D., Nielsen, A. H., Nocente, M., Nowak, S., Offeddu, N., Olsen, J., Orsitto, F. P., Pan, O., Papp, G., Pau, A., Perek, A., Pesamosca, F., Peysson, Y., Pigatto, L., Piron, C., Poradzinski, M., Porte, L., Putterich, T., Rabinski, M., Raj, H., Rasmussen, J. J., Ratta, G. A., Ravensbergen, T., Ricci, D., Ricci, P., Rispoli, N., Riva, F., Rivero-Rodriguez, J. F., Salewski, M., Sauter, O., Schmidt, B., S., Schrittweiser, R., Sharapov, S., Sheikh, U. A., Smolders, A., Sozzi, C., Spolaore, M., Stagni, A., Sun, G., Biwole, A. Tema, Terranova, D., Tsui, C. K., Vaccaro, D., van Berkel, M., van Kampen, R. J. R., Mulders, S., Verhaegh, K., Verhaeghe, T., Vianello, N., Vincent, B., Wijkamp, T. A., Wuthrich, C. +217 moreopenaire +10 more sourcesModeling and control of TCV [PDF]
IEEE Transactions on Control Systems Technology, 2005 A new approach to the modeling and control of tokamak fusion reactors is presented. A nonlinear model is derived using the classical arguments of Hamiltonian mechanics and a low-order linear model is derived from it. The modeling process used here addresses flux and energy conservation issues explicitly and self-consistently. The model is of particular Atul S. Sharma, David J. N. Limebeer, Imad M. Jaimoukha, Jonathan B. Lister +3 moreopenaire +3 more sourcesGas puff imaging on the TCV tokamak
Review of Scientific Instruments, 2022 We present the design and operation of a suite of Gas Puff Imaging (GPI) diagnostic systems installed on the Tokamak à Configuration Variable (TCV) for the study of turbulence in the plasma edge and Scrape-Off-Layer (SOL). These systems provide the unique ability to simultaneously collect poloidal 2D images of plasma dynamics at the outboard midplane ...N. Offeddu, C. Wüthrich, W. Han, C. Theiler, T. Golfinopoulos, J. L. Terry, E. Marmar, C. Galperti, Y. Andrebe, B. P. Duval, R. Bertizzolo, A. Clement, O. Février, H. Elaian, D. Gönczy, J. D. Landis +15 moreopenaire +2 more sourcesOBLIQUE AND CORRELATION ECE IN TCV [PDF]
Electron Cyclotron Emission and Electron Cyclotron Resonance Heating (EC-16), 2011 The Tokamak á Configuration Variable, TCV, is equipped with a moveable ECE receiving antenna, identical to the 6 second harmonic (X2) ECH/ECCD launchers, which can track the plasma at any position within the vacuum vessel in real time. In contrast to this poloidal plane viewing, the receiver can be rotated to obtain an oblique view.GOODMAN, T.P., UDINTSEV, V.S., FABLE, E., FELICI, F., POCHELON, A., PORTE, L., RANCIC, M., SAUTER, O., SCHLATTER, CH., ZUCCA, C., CHATTOPADYAY, P.K. +10 moreopenaire +3 more sourcesRadiation distributions in TCV [PDF]
Journal of Nuclear Materials, 2007 Total radiative powers measured by foil bolometer and AXUV camera systems are compared to SOLPS5 simulations in low and high density deuterium and helium diverted discharges on the TCV tokamak. For low density the match between simulation and measurements is satisfactory, but at high density strongly radiating regions outside the SOLPS5 simulation grid Veres, G., Pitts, R. A., Wischmeier, M., Gulejova, B., Horacek, J., Kalvin, S. +5 moreopenaire +3 more sourcesT cell vaccination benefits relapsing progressive multiple sclerosis patients: a randomized, double-blind clinical trial. [PDF]
PLoS ONE, 2012 T-cell vaccination (TCV) for multiple sclerosis (MS) refers to treatment with autologous anti-myelin T-cells, attenuated by irradiation. Previously published clinical trials have been all open-labeled.To evaluate the safety and efficacy of TCV in ...Dimitrios Karussis, Hagai Shor, Julia Yachnin, Naama Lanxner, Merav Amiel, Keren Baruch, Yael Keren-Zur, Ofra Haviv, Massimo Filippi, Panayiota Petrou, Shalom Hajag, Urania Vourka-Karussis, Adi Vaknin-Dembinsky, Salim Khoury, Oded Abramsky, Henri Atlan, Irun R Cohen, Rivka Abulafia-Lapid +17 moredoaj +1 more sourceKnowledge, attitudes, and practices of the general population of Pakistan regarding typhoid conjugate vaccine: findings of a cross-sectional study
Frontiers in Public Health, 2023 Typhoid fever, a common enteric disease in Pakistan, caused by Salmonella typhi, is becoming an extended drug-resistant organism and is preventable through the typhoid conjugate vaccine (TCV).Muhammad Junaid Tahir, Musharaf Zaman, Junaid Saffi, Muhammad Sohaib Asghar, Waleed Tariq, Faizan Ahmed, Rabia Islam, Usman Shakeel Farooqui, Irfan Ullah, Muhammad Saqlain, Kaleem Ullah, Ali Ahmed +11 moredoaj +1 more sourceSafety and immunogenicity of Vi-typhoid conjugate vaccine co-administration with routine 9-month vaccination in Burkina Faso: A randomized controlled phase 2 trial
International Journal of Infectious Diseases, 2021 Objectives: In 2017, the World Health Organisation (WHO) pre-qualified a single-dose typhoid conjugate vaccine (TCV) and identified TCV co-administration studies as a research priority.Sodiomon B. Sirima, Alphonse Ouedraogo, Nouhoun Barry, Mohamadou Siribie, Alfred Tiono, Issa Nébié, Amadou Konaté, Gloria Damoaliga Berges, Amidou Diarra, Moussa Ouedraogo, Edith C. Bougouma, Issiaka Soulama, Alimatou Hema, Shrimati Datta, Yuanyuan Liang, Elizabeth T. Rotrosen, J. Kathleen Tracy, Leslie P. Jamka, Jennifer J. Oshinsky, Marcela F. Pasetti, Kathleen M. Neuzil, Matthew B. Laurens +21 moredoaj +1 more source