Fiber Optic Interferometer
Fundamentals and Applications
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Beschreibung
This book highlights the key technology of fiber optic interferometers (FOI), providing a systematic overview of their principles and applications. FOI is among the first fiber optic sensors to achieve engineering applications due to its ultra-high sensitivity, yet challenges such as temperature drift and instability persist. Starting with the wave and coherence theories of light, the book explains the transmission and control of polarized light in optical fibers. It then covers the optical characteristics of major FOI types and introduces recent developments in short-cavity FP interferometers, white light interference, and long-range interferometers. The book also classifies and discusses holistic signal processing technologies for different types of interferometers. Furthermore, it presents in-depth analyses of several commercialized fiber optic sensors, including fiber underwater acoustic sensors (hydrophones), fiber vector/acceleration sensors, and fiber gyroscopes. Practical designs for a fiber hydrogen sensor and a refractive index sensor combining fiber gratings with Mach-Zehnder interferometers (LPG-MZ) are also included. This comprehensive resource is intended for students, engineers, and practitioners in the field.
This book highlights the key technology of fiber optic interferometers (FOI), providing a systematic overview of their principles and applications. FOI is among the first fiber optic sensors to achieve engineering applications due to its ultra-high sensitivity, yet challenges such as temperature drift and instability persist. Starting with the wave and coherence theories of light, the book explains the transmission and control of polarized light in optical fibers. It then covers the optical characteristics of major FOI types and introduces recent developments in short-cavity FP interferometers, white light interference, and long-range interferometers. The book also classifies and discusses holistic signal processing technologies for different types of interferometers. Furthermore, it presents in-depth analyses of several commercialized fiber optic sensors, including fiber underwater acoustic sensors (hydrophones), fiber vector/acceleration sensors, and fiber gyroscopes. Practical designs for a fiber hydrogen sensor and a refractive index sensor combining fiber gratings with Mach-Zehnder interferometers (LPG-MZ) are also included. This comprehensive resource is intended for students, engineers, and practitioners in the field.
Covers the transmission and control of polarized light in a fiber as well as investigation into stability issues Offers in-depth discussion of the holistic, classified signal processing issues in fiber interferometer Includes typical solution analysis to help readers with sensor design
Autor*in
Yanbiao Liao
Themen in »Fiber Optic Interferometer«
Optical Interference Optical Fiber Transmission and Control of Polarized Light Signal Processing Sensor Design Wave Theory Two Beam Interference Polarized Light Jones Matrix Poincare Sphere Michelson Interferometer Mach-Zehnder Interferometer Fabry-Perot Cavity Sagnac Interferometer White Light Interference