Electromagnetic Field Plot of an Inductive Window by the Moment Method

A moment method is used to plot the electromagnetic field of an inductive window in a TE10 -mode rectangular waveguide. Green\u27s dyadic functions are derived based on Tai\u27s approach, which is a modified form of Hansen\u27s vector wave functions. Based on the computed electric fields, the S matrix and the equivalent aperture reactance of the waveguide window are calculated. This calculation agrees with the previously published closed-form results of Marcuvitz

Space Constants of Auxiliary Waves

Space constants of auxiliary waves are investigated. In this investigation, validity of space constants of auxiliary waves are examined by cross checking propagation constants and wave impedance under the same polarization. The principal wave considered is a uniform TEM mode electromagnetic plane wave. The auxiliary waves are associated with the principal wave, then various sets of space constants are derived from auxiliary waves based upon the propagation constants or wave impedance of various polarizations. This approach suggests the existence of a new set of wave impedances for auxiliary waves. This set of space constants shows space constants for auxiliary waves are inhomogeneous and anisotropic for auxiliary waves even though these are homogenous and isotropic for the principal wave. As a numerical example, space constants for free space are sketched for the ¯rst time. The sketch shows indeed space constants of free space for auxiliary waves are inhomogeneous and anisotropic

Handbook of microwave technology

The Handbook of Microwave Technology provides a reference resource for professionals in business and industry as well as science and engineering students. A compact, concise reference, the Volumes contain focused chapters complete with useful formulas, charts, graphs, tables, examples, and diagrams that are clearly explained and easily applicable to practical cases. Volume I: Components and Devices provides a comprehensive overview of the components and devices used in microwave circuits, including microwave transmission lines, resonators, filters, ferrite devices, solid state devices, transistor oscillators and amplifiers, directional couplers, microstripline components, microwave detectors, mixers, converters and harmonic generators, and microwave solid-state switches, phase shifters and attenuators. Volume II: Applications discusses consumer, industrial, biomedical, and chemical applications of microwave technology. It also covers microwave instrumentation and measurement, thermodynamics, and applications in navigation, law enforcement, and radio communication. * of Volume I * Includes coverage of numerous components and devices used in microwave circuits, including: * Microwave transmission lines * Resonators, filters, ferrite devices, solid state devices * Transistor oscillators and amplifers * Directional couplers and microstripline components * Microwave detectors, mixers, converters, and harmonic generators * Microwave solid-state switches, phase shifters, and attenuators * Key Features of Volume II * Discusses consumer, industrial, biomedical, and chemical applications of microwave technology * Covers microwave instrumentation and measurements * Includes applications in navigation, law enforcement, and radio communication.The Handbook of Microwave Technology provides a reference resource for professionals in business and industry as well as science and engineering students. A compact, concise reference, the Volumes contain focused chapters complete with useful formulas, charts, graphs, tables, examples, and diagrams that are clearly explained and easily applicable to practical cases. Volume I: Components and Devices provides a comprehensive overview of the components and devices used in microwave circuits, including microwave transmission lines, resonators, filters, ferrite devices, solid state devices, transistor oscillators and amplifiers, directional couplers, microstripline components, microwave detectors, mixers, converters and harmonic generators, and microwave solid-state switches, phase shifters and attenuators. Volume II: Applications discusses consumer, industrial, biomedical, and chemical applications of microwave technology. It also covers microwave instrumentation and measurement, thermodynamics, and applications in navigation, law enforcement, and radio communication. * of Volume I * Includes coverage of numerous components and devices used in microwave circuits, including: * Microwave transmission lines * Resonators, filters, ferrite devices, solid state devices * Transistor oscillators and amplifers * Directional couplers and microstripline components * Microwave detectors, mixers, converters, and harmonic generators * Microwave solid-state switches, phase shifters, and attenuators * Key Features of Volume II * Discusses consumer, industrial, biomedical, and chemical applications of microwave technology * Covers microwave instrumentation and measurements * Includes applications in navigation, law enforcement, and radio communication.VOLUME I: Microwave Transmission Lines. Microstrip Lines. Microwave Resonators. Microstrip Line Components. Microstrip Line Components: Suspended-Substrate Technique. Microwave Filters. Directional Couplers. Microwave Ferrite Devices. Microwave Solid-State Devices. Transferred Electron Devices. Microwave IMPATT Diode Amplifiers and Oscillators. Microwave Transistor Oscillators and Amplifiers. Microwave Detectors, Mixers, Converters, And Harmonic Generators. Electron Beam Formation, Focusing, And Collection in Microwave Tubes. Microwave Solid-State Switches, Phase Shifters, And Attenuators. Microwave Thermionic Density Modulated Devices and Applications. Microwave Impedance Matching Techniques. VOLUME II: Klystrons. Magnetrons. Travelling-Wave Thermionic Devices. Gyrotrons, Magnicons, And Ubitrons. The Peniotron. Thermodynamics of Microwave Devices. Microwave Antennas. Propagation at Microwave Frequencies. Consumer Applications of Microwaves: Microwave Oven and Accessories. Industrial Applications of Microwaves. Biomedical Applications of Microwave Engineering. Chemical Applications of Microwaves. Electron Paramagnetic Resonance. Microwave Navigation Aids: Part A: The Global Positioning System. Part B: Doppler Navigation System. Microwave Applications for Law Enforcement. Microwave Radio Communication. Microwave Instrumentation and Measurements. Microwave Mathematics. Microwave Materials. Microwave Masers. References. Index for Volumes I and II.Print version record.Elsevie