Strongly Coupled Plasma Physics: Nato ASI Subseries B:, cartea 154
Autor Forrest J. Rogers, Hugh E. Dewitten Limba Engleză Paperback – 4 noi 2011
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Specificații
ISBN-13: 9781461290537
ISBN-10: 1461290538
Pagini: 624
Ilustrații: IX, 610 p.
Dimensiuni: 178 x 254 x 33 mm
Greutate: 1.07 kg
Ediția:Softcover reprint of the original 1st ed. 1987
Editura: Springer Us
Colecția Springer
Seria Nato ASI Subseries B:
Locul publicării:New York, NY, United States
ISBN-10: 1461290538
Pagini: 624
Ilustrații: IX, 610 p.
Dimensiuni: 178 x 254 x 33 mm
Greutate: 1.07 kg
Ediția:Softcover reprint of the original 1st ed. 1987
Editura: Springer Us
Colecția Springer
Seria Nato ASI Subseries B:
Locul publicării:New York, NY, United States
Public țintă
ResearchCuprins
I. Classical Strong Coupling.- Thermodynamic Functions, Transport Coefficients and Dynamic Correlations in Dense Plasmas.- Static and Dynamic Properties of Strongly-Coupled Classical One-Component Plasmas: Numerical Experiments on Supercooled Liquid State and Simulation of Ion Plasma in the Penning Trap.- Extraction of the One-Component Plasma Bridge Function from Computer Simulation Data.- Some Properties of a Polarized OCP.- Perturbation Theory of the Miscibility Gap in Metal Salt Solutions.- II. Plasma Experiments.- A High-?, Strongly-Coupled, Non-Neutral Ion Plasma.- Laser Scattering Measurements of Thermal Entropy and Non-Acoustic Fluctuations in Collision-Dominated Plasmas.- Production and Diagnosis of Dense Cool Alkali Plasmas.- Shock Waves and Thermodynamics of Strongly Compressed Plasmas.- Strongly-Coupled Plasma Diagnostics and Experimental Determination of DC Electrical Conductivity.- III. Molecular Dynamics and Kinetic Theory.- Two Component Plasmas in Two and Three Dimensions.- Kinetic Theory of the Interdiffusion Coefficient In Dense Plasmas.- Transport Properties of a Fully Ionized Plasma: Semi-Classical or Quantum Mechanical Approach.- IV. Astrophysics.- Dense Matter in Astrophysics: Selected Topics.- Transport Processes and Neutrino Emission Processes in Dense Astrophysical Plasmas.- White Dwarf Stars: Laboratories for Strongly Coupled Plasma Physics.- Toward an Improved Pure Hydrogen EOS for Astrophysical Applications.- Solar Oscillations and the Equation of State.- V. Quantum Plasmas.- Thermodynamic Properties and Phase Transitions in Hydrogen and Rare Gas Plasmas.- Nonideal Plasmas and Bound States.- High-Order Levinson Theorems and the Plank-Larkin Partition Function for Reacting Plasmas.- Metallic Lithium by Quantum Monte Carlo.- Thomas-FermiTheory and its Generalizations, Applied to Strongly Coupled Plasmas.- The Thomas-Fermi and Related Models.- Occupation Numbers in Partially Ionized Plasmas.- Thomas Fermi Calculation of the Degree of Ionization in a Dense Plasma.- VI. Density Functional Theory.- Density-Functional Methods in Hot Dense Plasmas.- Description of Atomic Species in Dense Plasmas Using a Density-Functional-Theory Approach.- The Freezing of Charged and Uncharged Hard-Sphere Systems.- Atomic Structure of an Impurity Neon In Liquid Metallic Hydrogen.- VII. 2-D Plasmas.- Solvable Models of Coulomb Systems in Two Dimensions.- Charge Correlations and Sum Rules in Coulomb Systems I.- Charge Correlations and Sum Rules in Coulomb Systems II: Dynamics.- Theory of the Strongly Coupled 2-D Plasma with the 1/r Potential.- VIII. Metallic Fluids.- Metallic Fluids in the Critical Region.- Acoustic Velocity Measurements on Fluid Metals From Two-Fold Compressions to Two-Fold Expansions.- Structure of the Jovian Envelope and the Equation of State of Dense Hydrogen.- IX. Response Functions and Ion Stopping Power.- Nonlinear Fluctuation-Dissipation Theorems and Their Applications to Dynamical Problems in Strongly Coupled Plasmas.- Collective Modes and Mode Coupling for a Dense Plasma in a Magnetic Field.- Ion Stopping Power in Dense Partially Degenerate Plasmas.- Exact Asymptotic Expression for the State Dielectric Function of a Uniform Liquid at Large Wave Vectors.- The Strongly Coupled OCP Plasmon Dispersion for Finite Wavenumbers.- X. Electric Microfield and Optical Properties.- Electric Microfield Distributions.- Optical Properties of Non-Ideal Plasmas.- Simulation Studies of Ion Dynamic Effects on Dense Plasma Line Shapes.- Electric Microfield Distribution in Strongly Coupled Plasmas from Integral EquationSolutions.- Effects of Dielectronic Satellite Broadening on the Emission Spectra from Hot Plasmas.- Influence of Effective Interionic Potentials on the Low Frequency Electric Microfield Distributions in Dense Semi-Classical Hydrogen Plasmas.- Stark Effect in Dense, Correlated Plasmas.- Resonant Absorption in Dense Cesium Plasma.- XI. Integral Equations.- Onsager-Thomas-Fermi “Atoms” and “Molecules”: “Chemistry” of Correlations in Dense Plasmas.- Quantal Hypernetted Chain Equation Applied to Liquid Metallic Hydrogen.- Computation of an Improved Integral Equation by Non Linear Resummation of the First Graphs of the Bridge Function.- Lecturers.