Flexible Frequency-Hopping Microwave Generation by Dynamic Control of Optically Injected Semiconductor Laser
Under proper optical injection, period-one (P1) dynamics of an optically injected semiconductor laser can be excited by undamping the relaxation resonance of the semiconductor through Hopf bifurcation. The output intensity would oscillate at a microwave frequency, i.e., the P1 frequency. After optic...
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| Published in | IEEE photonics journal Vol. 8; no. 6; pp. 1 - 9 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
IEEE
01.12.2016
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1943-0655 1943-0647 1943-0647 |
| DOI | 10.1109/JPHOT.2016.2629082 |
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| Abstract | Under proper optical injection, period-one (P1) dynamics of an optically injected semiconductor laser can be excited by undamping the relaxation resonance of the semiconductor through Hopf bifurcation. The output intensity would oscillate at a microwave frequency, i.e., the P1 frequency. After optical-to-electrical conversion, a microwave signal can be generated with its frequency determined by the detuning frequency and the injection strength. Therefore, it provides a convenient way to dynamically control the instantaneous frequency of the generated microwave signal by manipulating the injection strength. In this work, a flexible frequency-hopping (FH) microwave waveform generator by dynamic control of an optically injected semiconductor laser is proposed and demonstrated. The system has a compact structure, and the key device is a commercial semiconductor laser. The generated FH microwave waveform has a high degree of flexibility, i.e., the central frequency, bandwidth, sequence length, and frequency order can be easily adjusted. A proof-of-concept experiment is carried out. Wideband (>10 GHz) stepped linear and Costas sequence are successfully generated. Autoambiguity functions of the generated frequency-hopping sequences are also investigated. The experimental results can verify the feasibility of the proposed FH waveform generator, which may find wide applications in future radar and communications systems. |
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| AbstractList | Under proper optical injection, period-one (P1) dynamics of an optically injected semiconductor laser can be excited by undamping the relaxation resonance of the semiconductor through Hopf bifurcation. The output intensity would oscillate at a microwave frequency, i.e., the P1 frequency. After optical-to-electrical conversion, a microwave signal can be generated with its frequency determined by the detuning frequency and the injection strength. Therefore, it provides a convenient way to dynamically control the instantaneous frequency of the generated microwave signal by manipulating the injection strength. In this work, a flexible frequency-hopping (FH) microwave waveform generator by dynamic control of an optically injected semiconductor laser is proposed and demonstrated. The system has a compact structure, and the key device is a commercial semiconductor laser. The generated FH microwave waveform has a high degree of flexibility, i.e., the central frequency, bandwidth, sequence length, and frequency order can be easily adjusted. A proof-of-concept experiment is carried out. Wideband (>10 GHz) stepped linear and Costas sequence are successfully generated. Autoambiguity functions of the generated frequency-hopping sequences are also investigated. The experimental results can verify the feasibility of the proposed FH waveform generator, which may find wide applications in future radar and communications systems. Under proper optical injection, period-one (P1) dynamics of an optically injected semiconductor laser can be excited by undamping the relaxation resonance of the semiconductor through Hopf bifurcation. The output intensity would oscillate at a microwave frequency, i.e., the P1 frequency. After optical-to-electrical conversion, a microwave signal can be generated with its frequency determined by the detuning frequency and the injection strength. Therefore, it provides a convenient way to dynamically control the instantaneous frequency of the generated microwave signal by manipulating the injection strength. In this work, a flexible frequency-hopping (FH) microwave waveform generator by dynamic control of an optically injected semiconductor laser is proposed and demonstrated. The system has a compact structure, and the key device is a commercial semiconductor laser. The generated FH microwave waveform has a high degree of flexibility, i.e., the central frequency, bandwidth, sequence length, and frequency order can be easily adjusted. A proof-of-concept experiment is carried out. Wideband (>10 GHz) stepped linear and Costas sequence are successfully generated. Autoambiguity functions of the generated frequency-hopping sequences are also investigated. The experimental results can verify the feasibility of the proposed FH waveform generator, which may find wide applications in future radar and communications systems. |
| Author | Xingwei Ye Fangzheng Zhang Qingshui Guo Pei Zhou Shilong Pan |
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| SubjectTerms | frequency-hopping Masers Microwave generation Microwave oscillators Microwave photonics Nonlinear optics Optical attenuators optical injection Optical polarization Semiconductor lasers |
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| Title | Flexible Frequency-Hopping Microwave Generation by Dynamic Control of Optically Injected Semiconductor Laser |
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