Inertial Confinement FusionWiley, 1982 - 347 pages |
Contents
Introduction | 1 |
Driver Energy Deposition | 24 |
Inertially Confined Thermonuclear Fusion Reactions | 29 |
Copyright | |
9 other sections not shown
Common terms and phrases
ablation accelerators achieve alpha particle atoms blowoff bremsstrahlung cavity characterizing charged particle coefficient collision corona critical density D-T fuel diode driver beam driver energy deposition electric field electron beam electron thermal conduction emission energy transport equation excitation fluid frequency fuel pellet fusion energy fusion reaction g/cm² heat conduction heavy ion Hence high energy hot electrons hydrodynamic ICF targets ignition implosion process incident laser incident light inertial confinement fusion instability intensity interaction ion beam ionization isentropic isentropic compression laser beam laser drivers Laser Fusion laser light Lawrence Livermore Laboratory Lawson criterion Lett Livermore Laboratory Report magnetic field mechanisms neutron Nucl nuclear Nuclear Fusion oscillation P₁ parametric particle beams photon Phys plasma population inversion produce propagation pulsed power radiation reaction products reaction rate reactor region resonance absorption shell shock wave simulation spherical suprathermal electrons target design thermal conduction thermal energy thermonuclear burn velocity wavelength