000 | 01754nam a22001937a 4500 | ||
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005 | 20240702110834.0 | ||
008 | 240702b |||||||| |||| 00| 0 eng d | ||
020 | _a9780890069325 | ||
082 |
_a621.369 _bCUL |
||
100 | _aCulshaw, Brian | ||
245 |
_aOptical Fiber Sensors Components and Subsystems _cBrian Culshaw, John P. Dakin |
||
250 | _a Volume 3: | ||
260 |
_aNorwood _bArtech House _c1996 |
||
300 | _a237p | ||
505 | _tRevisiting Optical Fiber Sensors. Fiber Gratings. Evanescently Coupled Components. Optical Fiber Lasers and Amplifiers. Advances in High-Speed OTDR Detection Techniques. Spectral Measurement Techniques for Optical Fiber Sensors. | ||
520 | _aThis hands-on problem-solving guide brings together the knowledge of international authors in the field to create a state-of-the-art picture of optical fiber sensors. It includes technology overviews, surveys applications, and describes measurement and implementation techniques. Helpful real-world case studies are also featured. Actual sensor performance examples provide guidance on measurement evaluations, environmental conditions, performance limitations, potential applications, and process-compatible formats, devices, and systems. Optical Fiber Sensors III: Components and Subsystems discusses the significance of recent fiber optic developments, including: The Fiber Bragg grating - and its impact on the basics of sensing technology; The optical fiber amplifier - and its emergence as an important optical source when configured asa laser and as a broadband photoluminescent device; Distributed sensing - and its development at both the conceptual level and in the engineering of optical time-domain reflectometers. | ||
700 | _aJohn P. Dakin | ||
942 |
_2ddc _cBK |
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999 |
_c2302 _d2302 |