Wave scattering theory : a series approach based on the Fourier transformation /
Saved in:
| Author / Creator: | Eom, Hyo J., 1950- |
|---|---|
| Imprint: | Berlin ; New York : Springer, c2001. |
| Description: | x, 244 p. : ill. ; 25 cm. |
| Language: | English |
| Subject: | Electromagnetic waves -- Scattering. Fourier transformations. Electromagnetic waves -- Scattering. Fourier transformations. |
| Format: | Print Book |
| URL for this record: | http://pi.lib.uchicago.edu/1001/cat/bib/4499060 |
Table of Contents:
- Notations
- Transform Definitions
- 1. Rectangular Grooves in a Plane
- 1.1. EM Scattering from a Rectangular Groove in a Conducting Plane
- 1.1.1. TE Scattering [6]
- 1.1.2. TM Scattering [7]
- 1.1.3. Appendix
- 1.2. EM Scattering from Multiple Grooves in a Conducting Plane
- 1.2.1. TE Scattering [12]
- 1.2.2. TM Scattering
- 1.2.3. Appendix
- 1.3. EM Scattering from Grooves in a Dielectric-Covered Ground Plane
- 1.3.1. TE Scattering [14]
- 1.3.2. TM Scattering
- 1.3.3. Appendix
- 1.4. EM Scattering from Rectangular Grooves in a Parallel-Plate Waveguide
- 1.4.1. TE Scattering [16]
- 1.4.2. TM Scattering [17]
- 1.5. EM Scattering from Double Grooves in Parallel Plates [18]
- 1.5.1. TE Scattering
- 1.5.2. TM Scattering
- 1.5.3. Appendix
- 1.6. Water Wave Scattering from Rectangular Grooves in a Plane
- References for Chapter 1
- 2. Flanged Parallel-Plate Waveguide Array
- 2.1. EM Radiation from a Flanged Parallel-Plate Waveguide
- 2.1.1. TE Radiation [8,9]
- 2.1.2. TM Radiation [10]
- 2.2. EM Radiation from a Parallel-Plate Waveguide into a Dielectric Slab
- 2.2.1. TE Radiation
- 2.2.2. TM Radiation [17]
- 2.3. TE Scattering from a Parallel-Plate Waveguide Array [18]
- 2.4. EM Radiation from Obliquely-Flanged Parallel Plates
- 2.5. EM Radiation from Parallel Plates with a Window [24]
- References for Chapter 2
- 3. Slits in a Plane
- 3.1. Electrostatic Potential Distribution Through a Slit in a Plane [1]
- 3.2. Electrostatic Potential Distribution due to a Potential Across a Slit [3]
- 3.3. EM Scattering from a Slit in a Conducting Plane
- 3.3.1. TE Scattering [10]
- 3.3.2. TM Scattering [11]
- 3.4. Magnetostatic Potential Distribution Through Slits in a Plane 67
- 3.5. EM Scattering from Slits in a Conducting Plane [13]
- 3.5.1. TE Scattering
- 3.5.2. TM Scattering
- 3.6. EM Scattering from Slits in a Parallel-Plate Waveguide
- 3.6.1. TE Scattering [26]
- 3.6.2. TM Scattering [27]
- 3.7. EM Scattering from Slits in a Rectangular Cavity
- 3.7.1. TM Scattering [29]
- 3.7.2. TE Scattering [30]
- 3.8. EM Scattering from Slits in Parallel-Conducting Planes [31]
- References for Chapter 3
- 4. Waveguides and Couplers
- 4.1. Inset Dielectric Guide
- 4.2. Groove Guide [4]
- 4.2.1. TM Propagation
- 4.2.2. TE Propagation
- 4.3. Multiple Groove Guide [8]
- 4.4. Corrugated Coaxial Line [10]
- 4.5. Coaxial Line with a Gap [13]
- 4.6. Coaxial Line with a Cavity [16]
- 4.7. Corrugated Circular Cylinder [18]
- 4.8. Parallel-Plate Double Slit Directional Coupler [23]
- 4.9. Parallel-Plate Multiple Slit Directional Coupler [29]
- References for Chapter 4
- 5. Junctions in Parallel-Plate/Rectangular Waveguide
- 5.1. T-Junction in a Parallel-Plate Waveguidp
- 5.1.1. H-Plane T-Junction [4]
- 5.1.2. E-Plane T-Junction [5]
- 5.2. E-Plane T-Junction in a Rectangular Waveguide [6]
- 5.3. H-Plane Double Junction [8]
- 5.4. H-Plane Double Bend [9]
- 5.5. Acoustic Double Junction: in a Rectangular Waveguide [11]
- 5.6. Acoustic Hybrid Junction in a Rectangular Waveguide [15]
- 5.6.1. Hard-Surface Hybrid Junction
- 5.6.2. Soft-Surface Hybrid Junction
- 5.6.3. Appendix
- References for Chapter 5
- 6. Rectangular Apertures in aPlane
- 6.1. Static Potential Through a Rectangular Aperture in a Plane
- 6.1.1. Electrostatic Distribution [3]
- 6.1.2. Magnetostatic Distribution
- 6.2. Acoustic Scattering from a Rectangular Aperture in a Hard Plane [7]
- 6.3. Electrostatic Potential Through Rectangular Apertures in a Plane [9]
- 6.4. Magnetostatic Potential Through Rectangular Apertures in a Plane [10]
- 6.5. EM Scattering from Rectangular Apertures in a Conducting Plane [11]
- 6.6. EM Scattering from Rectangular Apertures in a Rectangular Cavity [18]
- References for Chapter 6
- 7. Circular Apertures in a Plane
- 7.1. Static Potential Through a Circular Aperture in a Plane
- 7.1.1. Electrostatic Distribution [1]
- 7.1.2. Magnetostatic Distribution [4]
- 7.2. Acoustic Scattering from a Circular Aperture in a Hard Plane [6]
- 7.3. EM Scattering from a Circular Aperture in a Conducting Plane
- 7.4. Acoustic Radiation from a Flanged Circular Cylinder [15]
- 7.5. Acoustic Scattering from Circular Apertures in a Hard Plane [17]
- 7.6. Acoustic Radiation from Circular Cylinders in a Hard Plane [19]
- References for Chapter 7
- 8. Annular Aperture in a Plane
- 8.1. Static Potential Through an Annular Aperture in a Plane
- 8.1.1. Electrostatic Distribution [4,5]
- 8.1.2. Magnetostatic Distribution [4]
- 8.2. EM Radiation from a Coaxial Line into a Parallel-Plate Waveguide [6]
- 8.3. EM Radiation from a Coaxial Line into a Dielectric Slab [10]
- 8.4. EM Radiation from a Monopole into a Parallel-Plate Waveguide [17]
- References for Chapter 8
- 9. Circumferential Apertures on a Circular Cylinder
- 9.1. EM Radiation from an Aperture on a Shorted Coaxial Line [1]
- 9.1.1. Field Analysis
- 9.1.2. Appendix
- 9.2. EM Radiation from Apertures on a Shorted Coaxial Line [3]
- 9.3. EM Radiation from Apertures on a Coaxial Line [4]
- 9.4. EM Radiation from Apertures on a Coaxial Line with a Cover [6]
- 9.5. EM Radiation from Apertures on a Circular Cylinder [10]
- 9.5.1. TE Radiation
- 9.5.2. TM Radiation
- References for Chapter 9
- A. Appendix
- A.l. Vector Potentials and Field Representations
- Index
