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光载无线技术是解决终端超宽带无线通信的重要方法,光信号与微波/毫米波信号的融合处理技术在光-无线的数据格式转换中至关重要.提出了一种基于相位调制信号光注入Fabry-Perot型半导体激光器实现微波副载波相位调制信号产生的方法.光学注入半导体激光器的输出光场会产生一周期(P1)振荡效应, P1振荡产生的边带实现了相位调制信号光的调制分量的放大,被放大的调制分量与注入光载波在激光器腔内拍频形成微波副载波.注入光相位的变化导致新产生的微波副载波相位变化, 实现了注入信号光相位信息转化为微波副载波相位信息.本系统完成1.3 Gb/s, 2.7 Gb/s, 2 Gb/s光相位调制信号到微波副载波相位调制信号的转换,并测量了微波的单边带相位噪声. 通过光电转换和电域混频将还原出的光基带信号与原信号进行逻辑对比,证明了数据信息转换的正确性.Radio-over-fiber technology has become an important solution for ultra wide band wireless communication, and the convergence of signal processing between optics and microwave/millimeter wave is more crucial. In this paper, microwave subcarrier phase modulation signal generation based on optical injection into a semiconductor Fabry-Perot laser is proposed. According to the period-one(P1) oscillation effect of laser output optical field, one modulation component of the optical phase modulation signal is amplified by sideband of P1 oscillation. The amplified component beats with injection optical carrier to generate microwave subcarrier. The phase shifts lead to the phase shift of subcarrier, thus the phase information is converted into phase information about microwave subcarrier. The optical phase-shift-keying signals at 1.3 Gb/s, 2.7 Gb/s, 2 Gb/s are converted into microwave subcarrier phase modulation signal, and the single sideband phase noise is measured. By logically comparing the demodulated signal with original signal, the feasibility of data information conversion is proved experimentally.
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Keywords:
- radio-over-fiber /
- injection-locking /
- period-one oscillation /
- subcarrier phase modulation signal
[1] Niu S X, Wang Y C, He H C, Zhang M J 2009 Acta Phys. Sin. 587241 (in Chinese) [牛生晓, 王云才, 贺虎成, 张明江2009 58 7241]
[2] Yan S L 2010 Acta Phys. Sin. 59 3810 (in Chinese) [颜森林 2010 59 3810]
[3] Lü Y X, Yang X, Sun S 2009 Acta Phys. Sin. 58 2467 (in Chinese)[吕玉祥, 杨星, 孙帅 2009 58 2467]
[4] Pochet M, Naderi N A, Terry N, Kovanis V, Lester L F 2009 Opt.Express 17 20623
[5] Pochet M, Naderi N A, Kovanis1 V, Lester L F 2010 Conferenceon Lasers and Electro-Optics, Optical Society of America, NewMexico, 2010 CTuZ6
[6] Sung H K, Lau E K,WuMC 2007 Photon. Technol. Lett. 19 1005
[7] Pochet M, Naderi N A, Li Y, Kovanis V, Lester L F 2010 Photon.Technol. Lett. 22 763
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[1] Niu S X, Wang Y C, He H C, Zhang M J 2009 Acta Phys. Sin. 587241 (in Chinese) [牛生晓, 王云才, 贺虎成, 张明江2009 58 7241]
[2] Yan S L 2010 Acta Phys. Sin. 59 3810 (in Chinese) [颜森林 2010 59 3810]
[3] Lü Y X, Yang X, Sun S 2009 Acta Phys. Sin. 58 2467 (in Chinese)[吕玉祥, 杨星, 孙帅 2009 58 2467]
[4] Pochet M, Naderi N A, Terry N, Kovanis V, Lester L F 2009 Opt.Express 17 20623
[5] Pochet M, Naderi N A, Kovanis1 V, Lester L F 2010 Conferenceon Lasers and Electro-Optics, Optical Society of America, NewMexico, 2010 CTuZ6
[6] Sung H K, Lau E K,WuMC 2007 Photon. Technol. Lett. 19 1005
[7] Pochet M, Naderi N A, Li Y, Kovanis V, Lester L F 2010 Photon.Technol. Lett. 22 763
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