----- 等离子体技术概论:科学、工程与应用
1. PLASMAS, AN OVERVIEW Plasma Energy Distribution Plasma Sheaths The Generalized Discharge Characteristic Coupling Energy to a Plasma Effect of Pressure Frequency Magnetic Fields 2. ELASTIC AND INELASTIC COLLISION PROCESSES IN GASES Elastic Processes Excitation and Ionisation Processes 3. THE INTERACTION OF ELECTROMAGNETIC FIELDS WITH PLASMAS Collective and Particle Behaviour of Plasmas Charged Particles in Electromagnetic Fields Behaviour of A Charged Particle in a Magnetic Field The Defining Characteristics of a Plasma Methods of Coupling Electrical Energy to Plasmas 4. APPLICATIONS OF LOW PRESSURE ELECTRIC DISCHARGES AND PLASMAS Plasma Processes Used in Electronics Fabrication Magnetically Enhanced Plasmas The Cold Cathode Lamp Barrier Discharges for Lamps and Lasers and Plasma Screens Gas Lasers Molecular Lasers Electron and Ion Beams Glow Discharge Nitriding 5. ATMOSPHERIC PRESSURE DISCHARGES The Townsend Discharge Corona Discharges Corona Discharges on Power Lines Corona Used for Water Treatment Electrostatic Charging Processes Dielectric Barrier Discharges Partial Discharges Surface Discharges The Atmospheric Pressure DC Glow Discharge 6. ARC PROCESSES Arc Welding Electric Arc Melting Arc Gas Heaters Electrodeless Discharges High Pressure Discharge Lamps Ion Lasers Switchgear Effect of Lightning on Overhead Lines Magnetohydrodynamic Power Generation Generation of Electricity by Nuclear Fusion Natural Phenomena Applications in Space Research 7. DIAGNOSTIC METHODS AND MODELLING Probe Methods Interferometry Spectroscopic Methods Scattering Measurements 8. PLASMA AS A CIRCUIT ELEMENT: THE PLASMA CHARACTERISTIC 9. ELECTRICAL POWER SUPPLIES AND INSTRUMENTATION Stabilisation at the Operating Point The Transformer Rectification Instrumentation Safety 10. ENGINEERING MATERIALS AND COMPONENTS Electrodes Insulators Gases Optical Materials Vacuum Pumps and Instrumentation Gas Supplies and Instrumentation Water Cooling and Instrumentation
{{comment.content}}