Skip to main content

Plasma Formulary for Physics, Astronomy, and Technology, 2nd Edition

Plasma Formulary for Physics, Astronomy, and Technology, 2nd Edition

Declan Diver

ISBN: 978-3-527-65327-0

Mar 2013

232 pages

Select type: E-Book

$85.99

Description

This collection of fundamental formulae, up-to-date references and definitions in plasma physics is vital to anyone with an interest in plasmas or ionized gases, whether in physics, astronomy or engineering.
Both theorists and experimentalists will find this book useful, as it incorporates the latest results and findings, with extended coverage of fusion plasma, plasma in stellar winds, reaction rates, engineering plasma and many other topics.
The text is also unique in treating astrophysical plasmas, fusion plasmas, industrial plasmas and low temperature plasmas as aspects of the same discipline.
1 Basic Physical Data
1.1 Basic Physical Units 1.1.1 SI Units 1.1.2 cgs-Gaussian Units
1.2 Maxwell's Electromagnetic Equations
1.3 Special Relativity
1.4 Physical Constants
1.5 Dimensional Analysis
1.6 Ionization Energies of Gas-Phase Molecules
1.7 Characteristic Parameters for Typical Plasmas

2 Basic Plasma Parameters
2.1 Notation
2.2 Natural Timescales
2.3 Natural Scalelengths
2.3.1 Debye Length 2.3.2 Mean Free Path 2.3.3 Plasma Skin Depth 2.3.4 Larmor Radius [add in detailed discussion of sheaths, complementing 3.2]
2.4 Natural Speeds
2.5 Miscellaneous Parameters
2.6 Non-Dimensional Parameters

3 Discharge Plasmas and Elementary Processes
3.1 Notation
3.2 Plasma Sheath
3.3 Double-Layer
3.4 Diffusion Parameters
3.5 Ionization
3.6 Ionization Equilibrium

4 Radiation
4.1 Notation
4.2 Radiation from a Moving Point Charge
4.3 Cyclotron and Synchrotron Radiation
4.4 Bremsstrahlung
4.5 Radiation Scattering

5 Kinetic Theory
5.1 Notation
5.2 Fundamentals
5.3 Boltzmann Equation
5.4 Maxwellian Distribution
5.5 Vlasov Description
5.6 Collisional Modelling

6 Plasma Transport
6.1 Notation
6.2 Basic Definitions
6.3 Binary Collisions
6.4 Particle Dynamics
6.5 Transport Coefficients

7 Plasma Waves
7.1 Notation
7.2 Waves in Cold Plasmas
7.3 Fluid Plasmas
7.4 Waves in Hot Plasmas

8 Flows
8.1 Notation
8.2 Fundamental Results
8.3 Hydromagnetic Flows
8.4 Solar Wind
8.5 Neutral Gas/Magnetized Plasma Flows
8.6 Beams
8.7 Hydromagnetic Shocks
8.8 Ion-Acoustic Shock

9 Equilibria and Instabilities
9.1 Notation 146
9.2 General Considerations
9.3 Fluid Equilibria
9.4 Fluid Instabilities
9.5 Kinetic Instabilities

10 Mathematics
10.1 Vector Algebra 168
10.2 Vector Calculus 168
10.3 Integral Theorems 174
10.4 Matrices 175
10.5 Eigenfunctions of the Curl Operator 179
10.6 Wave Scattering 180
10.7 Plasma Dispersion Function
""... ein sehr nutzliches und handliches Referenzwerk ..."" IEEE Electrical Insulation Magazine