Inertial Confinement FusionWiley, 1982 - 347 pages |
Contents
Introduction | 1 |
Driver Energy Deposition | 24 |
Inertially Confined Thermonuclear Fusion Reactions | 29 |
Copyright | |
10 other sections not shown
Common terms and phrases
ablation absorption accelerators achieve appear applications assume atoms become calculate characterizing charged particle codes coefficient collision compression consider core corona coupling critical density dependence detailed determine driver energy effects efficiency electric electron emission energy deposition equation example excitation experiments field Figure flow fluid frequency fuel fusion reaction gain given heat Hence hydrodynamic ICF targets ignition implosion important incident increase inertial confinement fusion instability intensity interaction interest involves ion beam ionization Laboratory Laser Fusion laser light magnetic mass material mechanisms mode neutron noted occurs parametric particle pellet photon Phys physics plasma present pressure problem produce propagation pulse radiation range reaction reactor region relation Report scale shell shock wave simulation surface temperature thermal conduction thermal energy thermonuclear thermonuclear burn tion transfer transport wall yield