Return To:
Contents
Prev Page:
(TH/2-D) Discussion of Session TH/2
Next Page:
(TH/P1-01) Monte Carlo Simulations of Neoclassical Phenomena in
Session TH/P1 - Core Micro-instabilities and Transport
Subsections
(TH/P1-01) Monte Carlo
Simulations of Neoclassical Phenomena in Tokamak Plasmas
(TH/P1-02) Angular Momentum Generation: Theory and Recent Experiments
(TH/P1-03) Investigations of the Role of Nonlinear Couplings in Structure Formation and Transport Regulation: Experiment, Simulation, and Theory
(TH/P1-04) Canonical Profiles in Tokamaks
(TH/P1-06) Integral Equation Based Stability Analysis of Short Wavelength Drift Modes in Tokamaks
(TH/P1-07) Confrontation of Heat Transport Models Against Tore Supra and JET High Performance Discharges
(TH/P1-08) Gyrokinetic Global Analysis of Ion Temperature Gradient Driven Mode in Reversed Shear Tokamaks
(TH/P1-09) Burning Plasma Projections Using Drift Wave Transport Models and Scalings for the H-mode Pedestal
(TH/P1-10) General Fluid Theories, Variational Principles and Self-Organization
(TH/P1-11) Creation and Dynamical Co-evolution of Electron and Ion Channel Transport Barriers
(TH/P1-12) Characterisation of Temperature Gradient Driven Turbulence and Transport
(TH/P1-13) Large-Scale Gyrokinetic Turbulence Simulations with Kinetic Electrons from the Summit Framework
(TH/P1-14) Short Wavelength Temperature Gradient Driven Modes in Tokamak Plasmas
(TH/P1-15) Minimum Energy State of Plasmas with an Internal Transport Barrier
(TH/P1-16) Theory of Cross Phase-Induced Transport Suppression in Strongly Sheared Flow
(TH/P1-17) Nonlinear Diffusion Regimes in Stochastic Magnetic Fields
(TH/P1-18) Shear Flow Generation due to Electromagnetic Instabilities
(TH/P1-19) Comprehensive Gyrokinetic Simulation of Tokamak Turbulence at Finite Relative Gyroradius
(TH/P1-20) Effects of the Safety Factor on Ion Temperature Gradient Mode
(TH/P1-21) The Minimum Dissipation States for Tokamaks
IAEA 2003
Simulations of Neoclassical Phenomena in Tokamak Plasmas