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| Design of Signal Generator Applied on Sideband Modulation Pound-Drever-Hall Laser Frequency Stabilization |
| LI Chao1,2,CHEN Hua-cai1,LIN Yi-ge2,WANG Qiang2,LI Ye2,3,FANG Zhan-jun2 |
1. College of Optical and Electronic Technology, China Jiliang University, Hangzhou, Zhejiang 310018, China
2. Division of Time and Frequency, National Institute of Metrology, Beijing 100029, China
3. Department of Precision Instrument, Tsinghua University, Beijing 100084, China |
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Abstract A 6-channel signal generator with all the output channels share the same external frequency reference is designed based on direct digital synthesizer(DDS) chip AD9959 and phase-locked loop(PLL) chip ADF4351, combined with Arduino (an open-source electronic platform based on microprocessor ATmega328) as the controller. The output range of the signal generator is 0 Hz~4.4 GHz. Its frequency, phase and amplitude are adjustable via the USB port and the control panel. By means of mixing and combining, the modulation and the demodulation RF signal are generated. The signal generator is highly integrated and low-cost, and can be an alternative to commercial signal generators in sideband modulation PDH laser frequency stabilization experiment under laboratory conditions.
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Received: 24 January 2017
Published: 12 April 2018
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[1]沈辉,李刘锋,陈李生.超窄线宽激光——激光稳频原理及其应用[J].物理,2016,45(7):441-448.
[2]张爱敏,杨志强,张越,等.铯原子频率标准比对方法研究[J].计量学报,2014,35(3):286-290.
[3]李天初.从长度单位米到时间单位秒:稳频激光—飞秒光梳—铯原子喷泉钟—光钟[J].计量学报,2006,27(1):1-6.
[4]王暖让,年丰,高连山,等.超导稳频振荡器的研究[J].计量学报,2015,36(3):324-327.
[5]Drever R W P, Hall J L, Kowalski F V, et al. Laser phase and frequency stabilization using an optical resonator[J]. Applied Physics B, 1983, 31(2): 97-105.
[6]Black E D. An introduction to Pound-Drever-Hall laser frequency stabilization[J]. American Journal of Physics, 2001, 69(1): 79-87.
[7]所睿,房芳,李天初.超稳激光的研究[J].计量学报,2013,34(1):58-62.
[8]卞正兰,黄崇德,高敏,等. PDH激光稳频控制技术研究[J].中国激光,2012,39(3):1-5.
[9]Drever R W P, Hall J L, Kowalski F V, et al. Laser phase and frequency stabilization using an optical resonator[J]. Applied Physics B, 1983, 31(2):97-105.
[10]Wang Q, Lin Y-G, Meng F, et al. Magic Wavelength Measurement of the 87Sr Optical Lattice Clock at NIM[J]. Chinese Physics Letters, 2016, 33(10): 103201.
[11]Wong N C, Hall J L. Servo control of amplitude modulation in frequency-modulation spectroscopy: demonstration of shot-noise-limited detection[J]. J Opt Soc Am B, 1985, 2(9): 1527-1533.
[12]范夏雷,金尚忠,张枢,等.多频率合成主动抑制激光稳频的剩余幅度调制[J].中国激光,2016,43(4):1-6.
[13]Nevsky A, Alighanbari S, Chen Q F, et al. Robust frequency stabilization of multiple spectroscopy lasers with large and tunable offset frequencies[J]. Optics Letters, 2013, 38(22): 4903-4906.
[14]Lin Y-G, Wang Q, Li Y, et al. First Evaluation and Frequency Measurement of the Strontium Optical Lattice Clock at NIM[J]. Chinese Physics Letters, 2015, 32(9): 090601.
[15]Arthue T. Direct digital frequency synthesizers:Complete analysis and design guidelines[D]. Los Angeles: University of California, 2003.
[16]吴加政,苏新彦.远场涡流无损检测系统的DDS信号发生器设计[J].计量学报,2010,31(5):408-411.
[17]陈鹏飞,谢勇辉,林传富,等.脉冲微波式氢原子钟的研究进展[J].计量学报,2012,33(2):172-177.
[18]罗莹,张志伟,杨宁,等.基于锁相环的解调技术研究[J].计量学报,2015,36(4):432-435.
[19]Analog Devices Inc. 4-Channel, 500 MSPS DDS with 10-Bit DACs AD9959 [EB/OL]. http://www.analog.com, 2008-07/2016-12.
[20]Analog Devices Inc. Broadband frequency synthesizer with integrated VCO ADF4351 [EB/OL]. http://www.analog.com, 2012-05/2016-12. |
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2018, Vol. 39 
