Synopses & Reviews
Expanding upon the ideas first proposed in his seminal book Cosmical Magnetic Fields, Eugene N. Parker here offers the first in-depth treatment of the magnetohydrodynamic theory of spontaneous magnetic discontinuities. In detailing his theory of the spontaneous formation of tangential discontinuities (current sheets) in a magnetic field embedded in highly conducting plasma, Parker shows how it can be used to explain the activity of the external magnetic fields of planets, stars, interstellar gas clouds, and galaxies, as well as the magnetic fields in laboratory plasmas. Provocative and fascinating, Spontaneous Current Sheets in Magnetic Fields presents a bold new theory that will excite interest and discussion throughout the space physics community.
Review
"A major work that should be read by anyone interested in magnetohydrodynamics or plasma astrophysics. It will be an influential book for a long time to come." --Science
Synopsis
Expanding upon the ideas first proposed in his seminal book Cosmical Magnetic Fields, Eugene N. Parker here offers the first in-depth treatment of the magnetohydrodynamic theory of spontaneous magnetic discontinuities.
Description
Includes bibliographical references (p. 393-418) and index.
About the Author
Eugene N. Parker is S. Chandrasekhar Distinguished Service Professor in the Departments of Physics and Astronomy, Enrico Fermi Institute, University of Chicago. One of the founders of the field of space plasma physics, Professor Parker is the recipient of many honors, including the United States National Medal of Science and election to the National Academy of Science, where he served as chairman of the Astronomy section from 1983 to 1986.
Table of Contents
1. Introduction
2. The Field Equations
3. Invariance, Degeneracy and Continuous Equations
4. Formal Structure of the Magnetostatic Equations
5. Direct Integration of Equilibrium Equations
6. Examples of Field Discontinuities
7. The Optical Analogy
8. Topology of Tangential Discontinuities
9. Fluid Motions
10. Effects of Resistivity
11. Solar X-ray Emission