Plasma PhysicsPlasma Physics |
Contents
1 | |
Chapter 2 Microwave Scattering from Plasmas | 37 |
Chapter 3 Plasma Diagnostics by Light Scattering | 61 |
Chapter 4 Atomic Processes | 115 |
Chapter 5 Plasma Heating by Strong Shock Waves | 169 |
Chapter 6 Collisionless Shock Waves in Laboratory Plasmas | 213 |
Chapter 7 HighFrequency Instabilities | 275 |
Chapter 8 LowFrequency InstabiIities | 305 |
Chapter 9 Collisional Drift Instabilities | 345 |
Chapter 10 Instabilities of HighBeta Plasmas | 395 |
451 | |
463 | |
Common terms and phrases
amplitude angle Atomic axial azimuthal beam capacitor coefficient collisional collisionless collisions Conf configuration Contr cross section Culham cyclotron Debye length detector determined device diagnostic diamagnetic dielectric diffusion discussed dispersion relation distribution function drift waves echo effects electric field electron density electron plasma emission energy equation equilibrium excitation experimental experiments field lines finite fluctuations Fluids frequency Fusion Res gradient growth rate high-beta hydrogen IAEA instability interferometer ionization Landau damping Larmor radius laser length linear Mach number magnetic field Maxwellian measured method microwave mode Nucl observed obtained optical oscillations parameters particles perturbation phase velocity plasma density Plasma Diagnostics Plasma Phys Plasma Physics plasma waves potential probe Proc propagation pulse radiation radiative ratio region Rept resonance scattered light shock front shock tube shock wave shown in Fig signal spectral spectrum stability switch theoretical theory thermal theta-pinch voltage wavelength