Papers CMSS 2003

The following papers have been published in a special issue of Go-Symbol Transactions of Fusion Science and Technology: Volume 45, March 2004, number 2T, pages 1 - 496. They are freely available here for download. For correct referencing, please look at the Go-Symbol contents page.


AT 1-2 D. Hogeweij Degraded confinement & turbulence in tokamak experiments
AT 3 D. Hogeweij Transport studies using perturbative experiments
AT 4-5 N. Lopes-Cardozo Anomalous transport due to magnetic turbulence
AT 6 B. Weyssow Stochastic methods and anomalous transport
AT 7 A.L. Rogister Low frequency instabilities in confined plasmas: Concepts & theoretical framework
AT 8 D. Reiser
M.Z.Tokar 		Turbulence suppression in transport barriers
AT 9-10 X. Garbet Modelling a drift wave turbulence: An introduction
AT 11 G. Van Oost The importance of radial electric fields in magnetic confinement
AT 12 J. Ongena Numerical transport codes
BT 1 T.J. Schep Magnetic fields and plasmas
BT 2 H.J. de Blank Guiding center motion
DI 1 T. Donne Introduction to plasma diagnostics
DI 2 G. Van Oost Probe diagnostics for plasma edge characterization
DI 3 T. Donne Diagnostics for fluctuation measurements
DI 4 T. Donne
R. Barth		 Thomson scattering as a diagnostic tool
DI 5 A. Krämer-Flecken Microwave and far infrared diagnostics
DI 6 A. Pospieszczyk Spectroscopy
DI 7 B. Schweer Application of atomic beams for plasma diagnostic
EE 1 B Unterberg
U. Samm		 Overview of plasma edge physics
EE 2-3 V. Philipps Plasma-wall interaction and its control by wall conditioning
EE 4 K.H. Finken Edge physics, divertors, pump limiters
EE 5 K.H. Finken The Dynamic Ergodic Divertor (DED)
EE 6-7 D. Reiter
S. Wiesen
Helium removal and recycling
EE 8 U. Samm Radiation phenomena at edge and divertor
EI 1 J.P. Goedbloed Plasma equilibrium in tokamaks
EI 2 J.P. Goedbloed Introduction to MHD instabilities
EI 3 J.P. Goedbloed Toroidal theory of MHD instabilities
EI 4 R. Keppens Nonlinear MHD: Numerical concepts
EI 5 H.R. Koslowski Operational limits and limiting instabilities in tokamak machines
EI 6 H.R. Wilson Neoclassical tearing modes
FM 1-2 R.R. Weynants Fusion machines
FM 3-4 D. Hartmann Stellarators
HC 1 R. Koch Plasma heating by neutral beam injection
HC 2 R. Koch The coupling of electromagnetic power to plasmas
HC 3 R. Koch The ion cyclotron, lower hybrid and Alven wave heating methods
HC 4 J.A. Hoekzema Plasma heating & current drive / electron cyclotron waves
HC 5 D.W. Faulconer Current drive
IN 1 J. Ongena
G. Van Oost		 Energy for future centuries - will fusion be an inexhaustible, safe and clean energy source?
IN 2 E. Rebhan
G. Van Oost 		Thermonuclear burn criteria
IN 3 R. Antidormi
D. Bartlett
H. Bruhns		 The European fusion programme
KT 1-2 K.H. Spatschek Reduced descriptions for complex plasmas: Simple examples, plasma kinetics, and transport truncations
KW 1 P.U. Lamalle Kinetic theory of plasma waves - Part I: Introduction
KW 2 E. Westerhof Kinetic theory of plasma waves - Part II: Homogeneous plasma
KW 3 P.U. Lamalle Kinetic theory of plasma waves - Part III: Inhomogeneous plasma
KW 4 D. Van Eester Numerical modelling of particle heating and diffusion
SF 1 B. Unterberg
U. Samm		 Overview of tokamak results
SF 2 J. Ongena
A.M. Messiaen 		Heating, confinement and extrapolation to reactors
SF 3 M. Rubel Fusion reactor materials issues related to radioactivity: Tritium retention and neutron induced effects
SF 4 R. Wolf A tokamak reactor based on advanced concepts
TT 1 B. Weyssow Classical transport properties of a weakly coupled magnetized plasma
TT 2 B. Weyssow Neoclassical transport properties of a weakly coupled magnetized plasma

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