Session IF/P - Inertial Fusion

- (IF/P-01) Studies of Stimulated Raman Scattering in Laser Plasma Interactions
- (IF/P-02) Sausage Instabilities in Electron Current Channels and the Problem of Fast Ignition
- (IF/P-04) Petawatt Laser System for the Fast Ignition Studies at ILE, Osaka University
- (IF/P-05) Electron and Photon Production from Relativistic Laser-Plasma Interactions
- (IF/P-06) Implosion Scaling and Hydrodynamically Equivalent Target Design - Strategy for Proof of Principle of High Gain Inertial Confinement Fusion -
- (IF/P-07) Numerical Analysis of Non-spherical Implosion for Fast Ignition Using Newly Developed Integrated Implosion
- (IF/P-08) Analysis of Core Plasma Heating and Ignition by Relativistic Electrons
- (IF/P-09) X-ray and Fusion Yields at the Impact of Atomic Clusters on Targets
- (IF/P-11) The Interaction of Super-Intense Quasi-Neutral Particle Beams with Plasma: A Numerical Investigation
- (IF/P-12) Particle and Heat Transport in a Dense Wall-Confined MTF Plasma (Theory and Simulations)
- (IF/P-14) Simulation of Chamber Transport for Heavy-Ion Fusion
- (IF/P-15) Hydrodynamic Instability Experiments on the HIPER Laser Facility at the Institute of Laser Engineering, Osaka University
- (IF/P-16) Test of an Indirect Drive Fast Ignition Target Concept
- (IF/P-18) Indirect Drive Hohlraum Design for Laser ICF

*IAEA 2003*