Microwave Photonic Sensing for High Performance Displacement Measurement Based on Period-One Dynamics in a Laser
Microwave photonic (MWP) sensing and measurement are envisioned to be a promising alternate to the conventional pure electronic or optical solutions. By using a semiconductor laser (SL) subjected to external optical feedback (EOF) operating at period-one (P1) dynamic state to generate MWP signals, a...
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| Published in: | Journal of lightwave technology Vol. 40; no. 20; pp. 6737 - 6744 |
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| Main Authors: | , , , , , , |
| Format: | Journal Article |
| Language: | English |
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New York
IEEE
15-10-2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Abstract | Microwave photonic (MWP) sensing and measurement are envisioned to be a promising alternate to the conventional pure electronic or optical solutions. By using a semiconductor laser (SL) subjected to external optical feedback (EOF) operating at period-one (P1) dynamic state to generate MWP signals, a high performance sensing system is proposed for displacement with wide measurement range and super-high resolution. Through analysis on the state diagram of the system and its dynamics in P1, the relationship between the P1 oscillation frequency of the system and external cavity length is determined. Further, a measurement formula for displacement sensing is worked out. Then, the relevant signal processing algorithm to retrieve displacement information is developed by considering mode-hopping, frequency-hopping, and sawtooth-like phenomena that occurred in the relationship. Both simulation and experiment results confirmed the proposed MWP sensing approach. |
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| AbstractList | Microwave photonic (MWP) sensing and measurement are envisioned to be a promising alternate to the conventional pure electronic or optical solutions. By using a semiconductor laser (SL) subjected to external optical feedback (EOF) operating at period-one (P1) dynamic state to generate MWP signals, a high performance sensing system is proposed for displacement with wide measurement range and super-high resolution. Through analysis on the state diagram of the system and its dynamics in P1, the relationship between the P1 oscillation frequency of the system and external cavity length is determined. Further, a measurement formula for displacement sensing is worked out. Then, the relevant signal processing algorithm to retrieve displacement information is developed by considering mode-hopping, frequency-hopping, and sawtooth-like phenomena that occurred in the relationship. Both simulation and experiment results confirmed the proposed MWP sensing approach. |
| Author | Guo, Qinghua Du, Haiping Yu, Yanguang Tong, Jun Xi, Jiangtao Nie, Bairun Ruan, Yuxi |
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| SubjectTerms | Algorithms Displacement measurement Frequency hopping Information retrieval Masers Mathematical models Measurement by laser beam Microwave photonics Optical attenuators Optical feedback Optical sensors relaxation oscillation Semiconductor device measurement semiconductor laser Semiconductor lasers Signal processing State (computer science) |
| Title | Microwave Photonic Sensing for High Performance Displacement Measurement Based on Period-One Dynamics in a Laser |
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