In Optical Fiber Sensing Technologies: Principles, Techniques, and Applications, a team of distinguished researchers delivers a comprehensive overview of all critical aspects of optical fiber sensing devices, systems, and technologies. The book moves from the basic principles of the technology to innovation methods and a broad range of applications, including Bragg grating sensing technology, intra-cavity laser gas sensing technology, optical coherence tomography, distributed vibration sensing, and acoustic sensing.

The accomplished authors bridge the gap between innovative new research in the field and practical engineering solutions, offering readers an unmatched source of practical, application-ready knowledge.

Ideal for anyone seeking to further the boundaries of the science of optical fiber sensing or the technological applications for which these techniques are used, Optical Fiber Sensing Technologies: Principles, Techniques, and Applications also includes:

Thorough introductions to optical fiber and optical devices, as well as optical fiber Bragg grating sensing technology
Practical discussions of Extrinsic-Fabry-Perot-Interferometer-based optical fiber sensing technology, acoustic sensing technology, and high-temperature sensing technology
Comprehensive explorations of assemble free micro-interferometer-based optical fiber sensing technology
In-depth examinations of optical fiber intra-cavity laser gas sensing technology
Perfect for applied and semiconductor physicists, Optical Fiber Sensing Technologies: Principles, Techniques, and Applications is also an invaluable resource for professionals working in the semiconductor, optical, and sensor industries, as well as materials scientists and engineers for measurement and control.

Auteur

*Tiegen Liu, PhD, is Professor in the School of Precision Instrument and Opto-Electronics Engineering at Tianjin University, China.*

*Junfeng Jiang, PhD, is Professor in the School of Precision Instrument and Opto-Electronics Engineering at Tianjin University, China. **Kun Liu, PhD, is Associate Professor in the School of Precision Instrument and Opto-Electronics Engineering at Tianjin University, China. **Shuang Wang, PhD, is Assistant Professor in the School of Precision Instrument and Opto-Electronics Engineering at Tianjin University, China*

Texte du rabat
Explore foundational and advanced topics in optical fiber sensing technologies In Optical Fiber Sensing Technologies: Principles, Techniques, and Applications, a team of distinguished researchers delivers a comprehensive overview of all critical aspects of optical fiber sensing devices, systems, and technologies. The book moves from the basic principles of the technology to innovation methods and a broad range of applications, including Bragg grating sensing technology, intra-cavity laser gas sensing technology, optical coherence tomography, distributed vibration sensing, and acoustic sensing. The accomplished authors bridge the gap between innovative new research in the field and practical engineering solutions, offering readers an unmatched source of practical, application-ready knowledge. Ideal for anyone seeking to further the boundaries of the science of optical fiber sensing or the technological applications for which these techniques are used, Optical Fiber Sensing Technologies: Principles, Techniques, and Applications also includes:

Thorough introductions to optical fiber and optical devices, as well as optical fiber Bragg grating sensing technology
Practical discussions of Extrinsic-Fabry-Perot-Interferometer-based optical fiber sensing technology, acoustic sensing technology, and high-temperature sensing technology
Comprehensive explorations of assemble free micro-interferometer-based optical fiber sensing technology
In-depth examinations of optical fiber intra-cavity laser gas sensing technology Perfect for applied and semiconductor physicists, Optical Fiber Sensing Technologies: Principles, Techniques, and Applications is also an invaluable resource for professionals working in the semiconductor, optical, and sensor industries, as well as materials scientists and engineers for measurement and control.

Résumé
Optical Fiber Sensing Technologies Explore foundational and advanced topics in optical fiber sensing technologies In Optical Fiber Sensing Technologies: Principles, Techniques, and Applications, a team of distinguished researchers delivers a comprehensive overview of all critical aspects of optical fiber sensing devices, systems, and technologies. The book moves from the basic principles of the technology to innovation methods and a broad range of applications, including Bragg grating sensing technology, intra-cavity laser gas sensing technology, optical coherence tomography, distributed vibration sensing, and acoustic sensing. The accomplished authors bridge the gap between innovative new research in the field and practical engineering solutions, offering readers an unmatched source of practical, application-ready knowledge. Ideal for anyone seeking to further the boundaries of the science of optical fiber sensing or the technological applications for which these techniques are used, Optical Fiber Sensing Technologies: Principles, Techniques, and Applications also includes:

Thorough introductions to optical fiber and optical devices, as well as optical fiber Bragg grating sensing technology
Practical discussions of Extrinsic-Fabry-Perot-Interferometer-based optical fiber sensing technology, acoustic sensing technology, and high-temperature sensing technology
Comprehensive explorations of assemble free micro-interferometer-based optical fiber sensing technology
In-depth examinations of optical fiber intra-cavity laser gas sensing technology Perfect for applied and semiconductor physicists, Optical Fiber Sensing Technologies: Principles, Techniques, and Applications is also an invaluable resource for professionals working in the semiconductor, optical, and sensor industries, as well as materials scientists and engineers for measurement and control.

Contenu
CHAPTER 1 OPTICAL FIBER AND OPTICAL DEVICES
1.1 Optical Fiber
1.2 Light Source
1.2.1 Semiconductor Laser
1.2.2 Optical Fiber Laser
1.3 Optical Amplifier
1.3.1 Erbium Doped Fiber Amplifier
1.3.2 Semiconductor Optical Amplifier
1.4 Detector
1.5 Optical Fiber Passive Device
1.5.1 Optical Fiber Coupler
1.5.2 Optical Fiber Isolator
1.5.3 Optical Fiber Circulator
1.5.4 Optical Fiber Polarizer
1.5.5 Optical Fiber Switcher
1.6 Optical Fiber Modulator

CHAPTER 2 OPTICAL FIBER BRAGG GRATING SENSING TECHNOLOGY
2.1 Principle of Fiber Bragg Grating Sensing
2.2 Photosensitivity of Ge-Doped Fiber
2.3 Fabrication of Fiber Bragg Grating
2.4 Package Design for Strain and Temperature Sensing
2.4.1 Package Design for Strain Sensing
2.4.2 Package Design for Temperature Sensing
2.4.3 Performance Evaluation Under Cryogenic Temperature
2.5 Demodulation of Fiber Bragg Grating Sensing for Space Application
2.5.1 Demodulation Theory of Fiber Bragg Grating Sensing
2.5.2 Demodulation Instrument Development
2.5.3 Effect of Environment Temperature Variation

CHAPTER 3 EXTRINSIC-FABRY-PEROT-INTERFEROMETER-BASED OPTICAL FIBER SENSING TECHNOLOGY
3.1 Principle of Fabry-Perot Interferometer
3.2 Fabry-Perot Interferometer Based Optical Fiber Sensor Structure
3.3 Silicon-Diaphragm Optical Fiber Sensor
3.3.1 Silicon-Diaphragm Optical Fiber Pressure Sensor
3.3.2 Silicon-Diaphragm Optical Fiber Temperature Sensor
3.3.3 Non-Intrusive Optical Fiber Sensor Head Chip Ins…