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Nonlinear electron-wave interaction phenomena
Nonlinear Electron-Wave Interaction Phenomena.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York,
Academic Press,
1965.
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| Colección: | Electrical science series.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Nonlinear Electron-Wave Interaction Phenomena; Copyright Page ; FOREWORD; Table of Contents; CHAPTER 1. Introduction; 1 General Introduction; 2 Scope of the Book; 3 Classes and Description of Devices Analyzed; 4 Necessity for a Nonlinear Analysis; References; CHAPTER 2. Eulerian versus Lagrangian Formulation; 1 Introduction; 2 Eulerian Formulation of O-TWA Equations; 3 Lagrangian Formulation; 4 Composite Lagrangian System; CHAPTER 3. Radio-Frequency Equivalent Circuits; 1 Introduction; 2 Equivalence of Maxwell and Kelvin Theories.
- 3 Equivalence for a Helical Wave Guiding Structure4 Transmission-Line Equivalent for Surface Wave Propagation on a Plasma Column; 5 Equivalent Transmission Lines for Multidimensional Propagating Structures; 6 Backward-Wave Equivalent Circuits; 7 Equivalent Circuits with Spatially Varying Line Parameters; References; CHAPTER 4. Space-Charge-Field Expressions; 1 Introduction; 2 Green's Function Method for Potential Problems; 3 Potential Functions for the Cartesian Coordinate System; 4 Potential Function for a Two-Dimensional Rectangular System; 5 Space-Charge Fields for Rods of Charge.
- 6 Replacement of Rf Structure by an Impedance Sheet7 Space-Charge Potentials for Cylindrical Systems; 8 Potential Function for a Ring of Charge in an Axially Symmetric System; 9 Potential Functions for Hollow Beams; 10 One-Dimensional Disk Space-Charge Model; 11 Harmonic Method for Calculating the One-Dimensional Space-Charge Field; 12 Equivalence of the Green's Function and Harmonic Methods for the One-Dimensional Problem; 13 Space-Charge Fields for Specialized Configurations; References; CHAPTER 5. Klystron Analysis; 1 Introduction; 2 One-Dimensional Klystron Analysis.
- 3 One-Dimensional Klystron Results4 Two-Dimensional Klystron Analysis; 5 Three-Dimensional Klystron Interaction; 6 Radial and Angular Effects in Klystrons; 7 Relativistic Klystron Analysis; 8 Voltage Stepping in Klystrons; References; CHAPTER 6. Traveling-Wave Amplifier Analysis; 1 Introduction; 2 Mathematical Analysis of the One-Dimensional TWA; 3 One-Dimensional Results; 4 N-Beam TWA Analysis; 5 Two-Dimensional TWA Analysis; 6 Three-Dimensional O-TWA Analysis; 7 Two-Dimensional Circuit, Three-Dimensional Flow; 8 Effects of Transverse Variations on TWA Gain and Efficiency.
- 9 Relativistic O-TWA10 Integral Equation Analysis; References; CHAPTER 7. O-Type Backward-Wave Oscillators; 1 Introduction; 2 Backward-Wave Circuits; 3 Mathematical Analysis; 4 Solution Procedure; 5 Efficiency Calculations; 6 Relativistic Oscillator Analysis; 7 Radial and Angular Variations in BWO's; References; CHAPTER 8. Crossed-Field Drift-Space Interaction; 1 Introduction; 2 Two-Dimensional Drift-Space Equations; 3 Gap Modulation of a Crossed-Field Stream; 4 Results for a Two-Dimensional Cf Drift Region; 5 Three-Dimensional Drift-Space Equations; 6 Adiabatic Motion in a Drift Region.