Bibliography of Microwave Optical Technology
Although microwaves and coherent optics, being two of the largest and most useful branches of electrical engineering to emerge technologically, are usually considered as distinct subjects, many of the underlying fundamental principles, scientific achievements, and practical applications have common features. Following the evolvment of the initial principles and techniques during the closing decade of the last century, microwave engineering has long matured to a stage of ready availability of components, automation and accuracy of measurement, economical manufacturing methods, and application of sophisticated systems. Further, this development of electromagnetic phenomena having spatial and temporal coherence has, based on several centuries of study and practice of noncoherent light, in the last two decades reached the optical region. Hence, it is now practicable to consider a comprehensive treatment of these two fields, division being made by subject matter rather than by the artificial distinctions of frequency and/or wavelength ranges. However, a full text on the combined subjects would be very large and unwieldy and, thus, this Bibliography is presented in the hope that it will prove useful as a compact reference source to a large body of workers and, by putting forward the latest scientific and technical advances, stimulate a multi-disciplinary approach. The material of the book commences with the fundamentals of radiation and matter, progressing through components and devices, amplification and generation, transmission, reception and processing of information, and methods of measurement to conclude with a wide range of applications.
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Bibliography of Microwave Optical Technology
Although microwaves and coherent optics, being two of the largest and most useful branches of electrical engineering to emerge technologically, are usually considered as distinct subjects, many of the underlying fundamental principles, scientific achievements, and practical applications have common features. Following the evolvment of the initial principles and techniques during the closing decade of the last century, microwave engineering has long matured to a stage of ready availability of components, automation and accuracy of measurement, economical manufacturing methods, and application of sophisticated systems. Further, this development of electromagnetic phenomena having spatial and temporal coherence has, based on several centuries of study and practice of noncoherent light, in the last two decades reached the optical region. Hence, it is now practicable to consider a comprehensive treatment of these two fields, division being made by subject matter rather than by the artificial distinctions of frequency and/or wavelength ranges. However, a full text on the combined subjects would be very large and unwieldy and, thus, this Bibliography is presented in the hope that it will prove useful as a compact reference source to a large body of workers and, by putting forward the latest scientific and technical advances, stimulate a multi-disciplinary approach. The material of the book commences with the fundamentals of radiation and matter, progressing through components and devices, amplification and generation, transmission, reception and processing of information, and methods of measurement to conclude with a wide range of applications.
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Bibliography of Microwave Optical Technology

Bibliography of Microwave Optical Technology

Bibliography of Microwave Optical Technology

Bibliography of Microwave Optical Technology

Paperback(Softcover reprint of the original 1st ed. 1976)

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Overview

Although microwaves and coherent optics, being two of the largest and most useful branches of electrical engineering to emerge technologically, are usually considered as distinct subjects, many of the underlying fundamental principles, scientific achievements, and practical applications have common features. Following the evolvment of the initial principles and techniques during the closing decade of the last century, microwave engineering has long matured to a stage of ready availability of components, automation and accuracy of measurement, economical manufacturing methods, and application of sophisticated systems. Further, this development of electromagnetic phenomena having spatial and temporal coherence has, based on several centuries of study and practice of noncoherent light, in the last two decades reached the optical region. Hence, it is now practicable to consider a comprehensive treatment of these two fields, division being made by subject matter rather than by the artificial distinctions of frequency and/or wavelength ranges. However, a full text on the combined subjects would be very large and unwieldy and, thus, this Bibliography is presented in the hope that it will prove useful as a compact reference source to a large body of workers and, by putting forward the latest scientific and technical advances, stimulate a multi-disciplinary approach. The material of the book commences with the fundamentals of radiation and matter, progressing through components and devices, amplification and generation, transmission, reception and processing of information, and methods of measurement to conclude with a wide range of applications.

Product Details

ISBN-13: 9781468462180
Publisher: Springer US
Publication date: 04/15/2012
Series: Solid State Physics Literature Guides , #8
Edition description: Softcover reprint of the original 1st ed. 1976
Pages: 717
Product dimensions: 8.27(w) x 10.98(h) x 0.06(d)

Table of Contents

1. Radiation and Matter.- Section 1. Properties of Media.- Section 2. Lines with Purely Transverse Fields.- Section 3. Hollow Conducting Tubes.- Section 4. Resonant Interaction.- Section 5. Anisotropic Media.- Section 6. Nonlinear Effects.- Section 7. Radiation Techniques.- Section 8. Practical Transmission Aspects.- II. Components and Devices.- Section 9. Free-Space Components.- Section 10. Guided-Wave Components.- Section 11. Resonant Structures.- Section 12. Periodic and Guiding Structures.- Section 13. Solid-State Devices.- Section 14. Devices with Gyromagnetic Media.- Section 15. Gaseous-Discharge Devices.- Section 16. Beam-Type Antennas.- Section 17. Manufacturing Techniques.- III. Amplification and Generation.- Section 18. Electron-Beam Tubes.- Section 19. Crossed-Field and High-Energy Generators.- Section 20. Theory of Stimulated Emission.- Section 21. Paramagnetic-Material Lasers.- Section 22. Gaseous-Phase Lasers.- Section 23. Semiconductor Lasers.- Section 24. Construction and Operation of Lasers.- Section 25. Solid-State Sources.- Section 26. Indirect Operation.- IV. Transmission and Reception.- Section 27. Radiation Properties of Generators.- Section 28. Frequency Filters.- Section 29. Image-Forming Antennas.- Section 30. Modulation Techniques.- Section 31. Radiation Detectors.- Section 32. Receiver Techniques.- Section 33. Low-Noise Amplifiers.- Section 34. Principles of Holography.- Section 35. Storage and Processing.- V. Measurement Principles and Techniques.- Section 36. Fundamental Quantities.- Section 37. Frequency Standards and Stabilization.- Section 38. Wavelength and Frequency.- Section 39. Materials Parameters.- Section 40. Resonance Spectrometry.- Section 41. Radiation Scattering.- Section 42. Plasmas and Time Resolution.- Section 43. Noise andFluctuations.- Section 44. Radiation Parameters.- VI. Applications.- Section 45. Thermal and Industrial Aspects.- Section 46. Biological and Medical Aspects.- Section 47. Electron Accelerators.- Section 48. Guided-Wave Communication.- Section 49. Terrestrial Propagation.- Section 50. Practical Antenna Features.- Section 51. Radio-Link Communication.- Section 52. Radar Techniques.- Section 53. Astronomy Techniques.- Author Index.
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