The Propagation of Radio Waves Book contents
- Frontmatter
- Contents
- Preface
- 1 The ionosphere and magnetosphere
- 2 The basic equations
- 3 The constitutive relations
- 4 Magnetoionic theory 1. Polarisation and refractive index
- 5 Magnetoionic theory 2. Rays and group velocity
- 6 Stratified media. The Booker quartic
- 7 Slowly varying medium. The W.K.B. solutions
- 8 The Airy integral function and the Stokes phenomenon
- 9 Integration by steepest descents
- 10 Ray tracing in a loss-free stratified medium
- 11 Reflection and transmission coefficients
- 12 Ray theory results for isotropic ionosphere
- 13 Ray theory results for anisotropic plasmas
- 14 General ray tracing
- 15 Full wave solutions for isotropic ionosphere
- 16 Coupled wave equations
- 17 Coalescence of coupling points
- 18 Full wave methods for anisotropic stratified media
- 19 Applications of full wave methods
- Answers to problems
- Bibliography
- Index of definitions of the more important symbols
- Subject and name index
19 - Applications of full wave methods
Published online by Cambridge University Press: 06 December 2010
- Frontmatter
- Contents
- Preface
- 1 The ionosphere and magnetosphere
- 2 The basic equations
- 3 The constitutive relations
- 4 Magnetoionic theory 1. Polarisation and refractive index
- 5 Magnetoionic theory 2. Rays and group velocity
- 6 Stratified media. The Booker quartic
- 7 Slowly varying medium. The W.K.B. solutions
- 8 The Airy integral function and the Stokes phenomenon
- 9 Integration by steepest descents
- 10 Ray tracing in a loss-free stratified medium
- 11 Reflection and transmission coefficients
- 12 Ray theory results for isotropic ionosphere
- 13 Ray theory results for anisotropic plasmas
- 14 General ray tracing
- 15 Full wave solutions for isotropic ionosphere
- 16 Coupled wave equations
- 17 Coalescence of coupling points
- 18 Full wave methods for anisotropic stratified media
- 19 Applications of full wave methods
- Answers to problems
- Bibliography
- Index of definitions of the more important symbols
- Subject and name index
Summary
Introduction
This chapter is concerned with various applications of the full wave methods discussed in ch. 18. The object is to illustrate general principles but not to give details of the results. The number of possible applications is very large and only a selection can be given here. The topics can be divided into two groups: (a) problems where the solutions can be expressed in terms of known functions, and (b) problems where computer integration of the differential equations, or an equivalent method as in §§ 18.2–18.11, is used. In nearly all applications of group (a) it is necessary to make substantial approximations. The group (a) can be further subdivided into those cases where the fourth order governing differential equations are separated into two independent equations each of the second order, and those where the full fourth order system must be used. For the separated second order equations the theory is an extension of ch. 15 which applied for an isotropic medium, and many of its results can be used here.
In all the examples of this chapter the ionosphere is assumed to be horizontally stratified, with the z axis vertical. The incident wave is taken to be a plane wave with its wave normal in the x–z plane. It is assumed that the only effective charges in the plasma are the electrons.
- Type
- Chapter
- Information
- The Propagation of Radio WavesThe Theory of Radio Waves of Low Power in the Ionosphere and Magnetosphere, pp. 583 - 608Publisher: Cambridge University PressPrint publication year: 1985