Simplified optical correlation-domain reflectometry with proximal reflection point using CYTOP

M. Shizuka; H. Lee; N. Hayashi; Y. Mizuno; K. Nakamura

Simplified optical correlation-domain reflectometry with proximal reflection point using CYTOP

M. Shizuka, H. Lee, N. Hayashi, Y. Mizuno, K. Nakamura

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

We develop a new configuration of simplified optical correlation-domain reflectometry using a proximal reflection point. The experimental setup is basically composed of standard silica fibers and includes neither an optical frequency shifter such as an acousto-optic modulator nor an explicit reference path. The light reflected at the proximal reflection point, which is artificially fabricated near an optical circulator, is used as a reference light. Unlike the conventional silica-based setup, this configuration can perform a distributed reflectivity measurement along the distal half of the sensing fiber. After demonstration of the basic operation, the incident optical power dependence of the reflectivity distribution is investigated, and the existence of the optimal incident power is clarified.

Original language	English
Title of host publication	POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings
Editors	Patricia Scully, Kate Sugden, David J. Webb
Publisher	Aston University
Pages	187-190
Number of pages	4
ISBN (Electronic)	9781854494085
Publication status	Published - 2017
Externally published	Yes
Event	25th International Conference on Plastic Optical Fibres, POF 2016 - Birmingham, United Kingdom Duration: 2016 Sept 13 → 2016 Sept 15

Publication series

Name	POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings

Conference

Conference	25th International Conference on Plastic Optical Fibres, POF 2016
Country/Territory	United Kingdom
City	Birmingham
Period	16/9/13 → 16/9/15

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Polymers and Plastics
Materials Chemistry

Cite this

Shizuka, M., Lee, H., Hayashi, N., Mizuno, Y., & Nakamura, K. (2017). Simplified optical correlation-domain reflectometry with proximal reflection point using CYTOP. In P. Scully, K. Sugden, & D. J. Webb (Eds.), POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings (pp. 187-190). (POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings). Aston University.

Simplified optical correlation-domain reflectometry with proximal reflection point using CYTOP. / Shizuka, M.; Lee, H.; Hayashi, N. et al.
POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings. ed. / Patricia Scully; Kate Sugden; David J. Webb. Aston University, 2017. p. 187-190 (POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Shizuka, M, Lee, H, Hayashi, N, Mizuno, Y & Nakamura, K 2017, Simplified optical correlation-domain reflectometry with proximal reflection point using CYTOP. in P Scully, K Sugden & DJ Webb (eds), POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings. POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings, Aston University, pp. 187-190, 25th International Conference on Plastic Optical Fibres, POF 2016, Birmingham, United Kingdom, 16/9/13.

Shizuka M, Lee H, Hayashi N, Mizuno Y, Nakamura K. Simplified optical correlation-domain reflectometry with proximal reflection point using CYTOP. In Scully P, Sugden K, Webb DJ, editors, POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings. Aston University. 2017. p. 187-190. (POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings).

Shizuka, M. ; Lee, H. ; Hayashi, N. et al. / Simplified optical correlation-domain reflectometry with proximal reflection point using CYTOP. POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings. editor / Patricia Scully ; Kate Sugden ; David J. Webb. Aston University, 2017. pp. 187-190 (POF 2016 - 25th International Conference on Plastic Optical Fibres, Conference Proceedings).

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abstract = "We develop a new configuration of simplified optical correlation-domain reflectometry using a proximal reflection point. The experimental setup is basically composed of standard silica fibers and includes neither an optical frequency shifter such as an acousto-optic modulator nor an explicit reference path. The light reflected at the proximal reflection point, which is artificially fabricated near an optical circulator, is used as a reference light. Unlike the conventional silica-based setup, this configuration can perform a distributed reflectivity measurement along the distal half of the sensing fiber. After demonstration of the basic operation, the incident optical power dependence of the reflectivity distribution is investigated, and the existence of the optimal incident power is clarified.",

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AB - We develop a new configuration of simplified optical correlation-domain reflectometry using a proximal reflection point. The experimental setup is basically composed of standard silica fibers and includes neither an optical frequency shifter such as an acousto-optic modulator nor an explicit reference path. The light reflected at the proximal reflection point, which is artificially fabricated near an optical circulator, is used as a reference light. Unlike the conventional silica-based setup, this configuration can perform a distributed reflectivity measurement along the distal half of the sensing fiber. After demonstration of the basic operation, the incident optical power dependence of the reflectivity distribution is investigated, and the existence of the optimal incident power is clarified.

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Simplified optical correlation-domain reflectometry with proximal reflection point using CYTOP

Abstract

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ASJC Scopus subject areas

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