Chapter 1: Overview and summary (2007)
Shimada, M., Campbell, D. J., Mukhovatov, V., Fujiwara, M., Kirneva, N., Lackner, K., ...
Chapter 2: Plasma confinement and transport (2007)
Doyle, E. J., Houlberg, W. A., Kamada, Y., Mukhovatov, V., Osborne, T. H., Polevoi, A., ...
Chapter 9: ITER contributions for Demo plasma development (2007)
Mukhovatov, V., Shimada, M., Lackner, K., Campbell, D. J., Uckan, N. A., Wesley, J. C., ...
Chapter 2: Plasma confinement and transport (2007)
Doyle, E. J., Houlberg, W. A., Kamada, Y., Mukhovatov, V., Osborne, T. H., Polevoi, A., ...
The understanding and predictive capability of transport physics and plasma confinement is reviewed from the perspective of achieving reactor-scale burning plasmas in the ITER tokamak, for both core...
Progress in Physics Basis and its Impact on ITER (2005)
Shimada,M., Campbell,D., Stambaugh,R., Polevoi,A., Mukhovatov,V., Asakura,N., ...
Progress in Physics Basis and its Impact on ITER (2005)
Shimada, M., Campbell, D., Stambaugh, R., Polevoi, A., Mukhovatov, V., Asakura, N., ...
Litaudon,X., Barbato,E., Bécoulet,A., Doyle,E. J., Fujita,T., Gohil,P., ...
Litaudon, X., Barbato, E., Becoulet, A., Doyle, E. J., Fujita, T., Gohil, P., ...
Advanced tokamak regimes obtained in ASDEX Upgrade, DIII-D, FF-U, JET, JT-60U, TCV and Tore Supra experiments are assessed both in terms of their fusion performance and capability for ultimately...
Litaudon, X., Barbato, E., Bécoulet, A., Doyle, E.J., Fujita, T., Gohil, P., ...
Plasma Physics and Controlled Fusion Vol.46 Nr.5A, A19 - A34
Comparison of ITER performance predicted by semi-empirical and theory-based transport models (2003)
Mukhovatov,V., Shimomura,Y., Polevoi,A., Shimada,M., Sugihara,M., Bateman,G., ...
The values of Q = (fusion power)/(auxiliary heating power) predicted for ITER by three different methods are compared. The first method utilizes an empirical confinement-time scaling and prescribed...
Overview of physics basis for ITER (2003)
Mukhovatov,V., Shimada,M., Chudnovskiy,A. N., Costley,A. E., Gribov,Y., Federici,G., ...
ITER will be the first magnetic confinement device with burning DT plasma and fusion power of about 0.5 GW. Parameters of ITER plasma have been predicted using methodologies summarized in the ITER...
Gohil,P., Kinsey,J., Parail,V., Litaudon,X., Fukuda,T., Hoang,T., ...
Our understanding of the physics of internal transport barriers (ITBs) is being furthered by analysis and comparisons of experimental data from many different tokamaks worldwide. An international...
Comparison of ITER performance predicted by semi-empirical and theory-based transport models (2003)
Mukhovatov, V., Shimomura, Y., Polevoi, A., Shimada, M., Sugihara, M., Bateman, G., ...
The values of Q = (fusion power)/(auxiliary heating power) predicted for ITER by three different methods are compared. The first method utilizes an empirical confinement-time scaling and prescribed...
Overview of physics basis for ITER (2003)
Mukhovatov, V., Shimada, M., Chudnovskiy, A. N., Costley, A. E., Gribov, Y., Federici, G., ...
ITER will be the first magnetic confinement device with burning DT plasma and fusion power of about 0.5 GW. Parameters of ITER plasma have been predicted using methodologies summarized in the ITER...
Gohil, P., Kinsey, J., Parail, V., Litaudon, X., Fukuda, T., Hoang, T., ...
Our understanding of the physics of internal transport barriers (ITBs) is being furthered by analysis and comparisons of experimental data from many different tokamaks worldwide. An international...
Next Step Tokamak Physics: Confinement-oriented Global Database Analysis (2001)
Kardaun, O.J., Kallenbach, A., McCarthy, P., Ryter, F., Stäbler, A., Stober, J., ...
Overview of physics basis for ITER
Mukhovatov,V., Shimada,M., Chudnovskiy,A. N., Costley,A. E., Gribov,Y., Federici,G., ...
Progress in physics basis and its impact on ITER
Shimada,M., Campbell,D., Stambaugh,R., Polevoi,A., Mukhovatov,V., Asakura,N., ...