Talks and posters CMSS 2007
CMSS 2007 lectures are downloadable here as PDF or PPT documents. For copyright reasons, the documents are password protected. As a participant of CMSS 2007, you may ask for a password by sending an email to 
r.p.schorn@fz-juelich.de.
| Title | Lecturer | Code | ||
| Evening lecture | ||||
| Exotic plasmas | Gerrit Kroesen, TU Eindhoven | EL1 | ||
| Introduction | ||||
| Energy for future centuries | J. Ongena, JET-EFDA | IN1 |
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| Thermonuclear burn criteria | G. Van Oost, Ghent University | IN2 |
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| European energy research and the place of fusion: motivation, status and outlook | D.V. Bartlett, CEC | IN3 |
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| Basic theory of magnetic confinement | ||||
| Guiding centre motion | H. de Blank, FOM | BT |
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| Kinetic theory | ||||
| Kinetic theory I | B. Weyssow, ULB | KT1 |
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| Kinetic theory II | B. Weyssow, ULB | KT2 |
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| Fusion machines | ||||
| Confinement concepts I | R. Weynants, ERM/KMS | FM1 |
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| Confinement concepts II | R. Weynants, ERM/KMS | FM2 |
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| Stellarators I | D.A. Hartmann, IPP Garching | FM3 |
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| Stellarators II | D.A. Hartmann, IPP Garching | FM4 |
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| Tokamak operation | M. de Baar, FOM | FM5 |
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| Equilibrium and instabilities | ||||
| Plasma equilibrium in tokamaks | H. de Blank, FOM | EI1 |
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| MHD instabilities in tokamaks | H. de Blank, FOM | EI2 |
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| Numerical MHD | R. Keppens, FOM | EI3 |
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| Operational limits | H.R. Koslowski, FZJ | EI4 |
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| Neoclassical tearing modes | H.R. Wilson, University of York | EI5 |
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| Edge localised modes | H.R. Wilson, University of York | EI6 |
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| Kinetic wave theory | ||||
| Kinetic theory of plasma waves: Homogeneous plasmas | P. Lamalle, ERM/KMS | KW1 |
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| Kinetic theory of plasma waves: Inhomogeneous plasmas | P. Lamalle, ERM/KMS | KW2 |
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| Numerical modelling of wave-particle interaction | D. Van Eester, ERM/KMS | KW3 |
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| Plasma heating and current drive | ||||
| Plasma-wave coupling in various frequency domains | R. Koch, ERM/KMS | HC1 |
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| Ion cyclotron waves | R. Koch, ERM/KMS | HC2 |
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| Fast particle heating | R. Koch, ERM/KMS | HC3 |
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| Electron cyclotron waves | E. Westerhof, FOM | HC4 |
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| Current drive | D.W. Faulconer, ERM/KMS | HC5 | ||
| Edge plasma physics and plasma-wall interaction | ||||
| Plasma-wall interaction in magnetically confined fusion plasmas I | U. Samm, FZJ | EP1 |
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| Plasma-wall interaction in magnetically confined fusion plasmas II | U. Samm, FZJ | EP2 |
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| Transport processes in the plasma edge I | B. Unterberg, FZJ | EP3 |
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| Transport processes in the plasma edge II | B. Unterberg, FZJ | EP4 |
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| Impurity transport and radiation at the edge | M. Tokar, FZJ | EP5 |
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| Stochastic boundary plasmas | M. Tokar, FZJ | EP6 |
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| Erosion and deposition mechanisms in fusion plasmas I | A. Kirschner, FZJ | EP7 |
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| Erosion and deposition mechanisms in fusion plasmas II | A. Kirschner, FZJ | EP8 |
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| High heat flux performance of plasma facing materials and components under service conditions in future fusion reactors | J. Linke, FZJ | EP9 |
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| Recycling and transport of neutrals I | D. Reiter, FZJ | EP10 |
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| Recycling and transport of neutrals II | D. Reiter, FZJ | EP11 |
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| Laboratory devices and experiments to study plasma-surface interaction | G.J. van Rooij, FOM | EP12 |
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| Transport theory | ||||
| Classical and neo-classical transport I | B. Weyssow, ULB | TT1 |
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| Classical and neo-classical transport II | B. Weyssow, ULB | TT2 |
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| Anomalous transport | ||||
| Degraded confinement: the tokamak as a turbulent medium I | G.M.D. Hogeweij, FOM | AT1 |
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| Degraded confinement: the tokamak as a turbulent medium II | G.M.D. Hogeweij, FOM | AT2 |
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| Transport studies using perturbative techniques | G.M.D. Hogeweij, FOM | AT3 |
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| Drift wave turbulence: modelling and experimental aspects I | X. Garbet, CEA | AT4 |
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| Drift wave turbulence: modelling and experimental aspects II | X. Garbet, CEA | AT5 |
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| Drift wave turbulence: modelling and experimental aspects III | X. Garbet, CEA | AT6 |
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| Radial electric fields and their importance for confinement | G. Van Oost, Ghent University | AT7 |
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| Numerical codes for transport modelling | J. Ongena, JET-EFDA | AT8 |
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| Diagnostics | ||||
| Introduction to diagnostics | A.J.H. Donné, FOM | DI1 |
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| Plasma edge characterisation by probes | G. Van Oost, Ghent University | DI2 |
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| Laser-aided diagnostics | A.J.H. Donné, FOM | DI3 |
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| Far infrared and microwave diagnostics | A. Krämer-Flecken, FZJ | DI4 |
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| Optical spectroscopy | A. Pospieszczyk, FZJ | DI5 |
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| Atomic beam diagnostics | B. Schweer, FZJ | DI6 |
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| Diagnostics for erosion and deposition mechanisms in fusion plasmas | G.J. van Rooij, FOM | DI7 |
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| Present state of fusion and glance at the future | ||||
| Overview of tokamak results | R.C. Wolf, MPG-IPP Greifswald | SF1 |
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| Extrapolation to reactors | J. Ongena, JET-EFDA | SF2 |
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| Structure materials in fusion reactors | M. Rubel, KTH | SF3 | ||
| Reactor concepts | L.D. Horton, MPG-IPP Garching | SF4 |
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Contact
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