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The physics of non-ideal plasma /

This book is devoted to the physical properties of nonideal plasma which is compressed so strongly that the effects of interparticle interactions govern the plasma behavior. The interest in this plasma was generated by the development of modern technologies and facilities whose operations were based...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Fortov, V. E.
Otros Autores: I͡Akubov, I. T. (Igorʹ Tevfikovich)
Formato: Electrónico eBook
Idioma:Inglés
Ruso
Publicado: Singapore ; River Edge, NJ : World Scientific, ©2000.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Ch. 1. Non-ideal plasma. Basic concepts. 1.1. Interparticle interactions. Criteria of non-ideality. 1.2. The range of existence of non-ideal plasma. The classification of states. 1.3. Non-ideal plasma in nature. Scientific and technical applications
  • ch. 2. Electrical methods of non-ideal plasma generation. 2.1. Plasma heating in furnaces. 2.2. Isobaric Joule heating. 2.3. High-pressure electric discharges
  • ch. 3. Dynamic methods in the physics of non-ideal plasma. 3.1. The principles of dynamic generation and diagnostics of plasma. 3.2. Dynamic compression of the cesium plasma. 3.3. Compression of inert gases by powerful shock waves. 3.4. Isentropic expansion of shock-compressed metals. 3.5. Generation of superdense plasma in shock waves. 3.6. Non-ideal plasma generation by power fluxes of energy
  • ch. 4. lonization equilibrium and thermodynamic properties of weakly ionized plasma. 4.1. Partly ionized plasma. 4.2. Anomalous properties of metal plasma. 4.3. Lowering of ionization potential and cluster ions in a weakly ionized plasma. 4.4. Droplet model of non-ideal metal vapor plasma. 4.5. Plasma metallization
  • ch. 5. Thermodynamics of plasma with developed ionization. 5.1. One-component plasma. 5.2. Multi-component plasma. Results of perturbation theory. 5.3. Pseudopotential model. Monte Carlo calculations. 5.4. Bound state contribution. Confined atom model. 5.5. Quasi-classical approximation. 5.6. Method of density functional. 5.7. Comparison with experiment. 5.8. On phase transitions in non-ideal plasma.
  • Ch. 6. Electric conductivity of partly ionized plasma. 6.1. Electric conductivity of ideal partly ionized plasma. 6.2. Electric conductivity of weakly non-ideal plasma. 6.3. Electric conductivity of dense partly ionized plasma. 6.4. Thermoelectric power
  • ch. 7. Electric conductivity of fully ionized plasma. 7.1. Kinetic equation and results of asymptotic theories. 7.2. Results of electric conductivity measurements. 7.3. Results of electric conductivity calculations. 7.4. Electric conductivity of strongly non-ideal "cold" plasma. 7.5. Electric conductivity of high-temperature non-ideal plasma. The ion core effect
  • ch. 8. Optical properties of dense plasma. 8.1. Optical properties investigations. 8.2. Basic radiation processes in ideal atomic plasma. 8.3. Effects of weak non-ideality: Spectral lines broadening and shift; photoionization continuum threshold shift. 8.4. Microfield distribution in non-ideal plasma. 8.5. Spectroscopic stability principle. 8.6. Continuous spectra of non-ideal plasma. 8.7. Optical properties investigations
  • ch. 9. Non-ideal plasma with disperse condensed phase (CDP). 9.1. Classification of states of plasma with CDP. 9.2. lonization equilibrium in weakly non-ideal plasma with CDP. 9.3. Results of electron density calculations. 9.4. lonization equilibrium in strongly non-ideal plasma with CDP. 9.5. Renormalization of charge in the system of particles of large radius. 9.6. Relaxation of distribution of CDP particles. 9.7. Mobility of electrons. 9.8. Some results of experimental investigations
  • ch. 10. Dynamics and stability of non-ideal plasma. 10.1. The thermal instability of nonideal plasma with current. Stratification. 10.2. Non-uniform steady-state conditions of Joule heating of plasma. 10.3. Heating wave. 10.4. Recombination coefficient of plasma with multi-charged ions. 10.5. Hydrodynamic "explosion" under conditions of low-temperature plasma flow. 10.6. Hydrodynamic effects in non-ideal plasma.