光纤干涉型光学相控阵扫描角度的模拟实验

任远中; 柴金华

doi:10.3788/IRLA201948.1218002

光纤干涉型光学相控阵扫描角度的模拟实验

doi: 10.3788/IRLA201948.1218002

任远中¹,
柴金华²

1.
中国人民解放军陆军炮兵防空兵学院研究生大队,安徽合肥 230031;
2.
中国人民解放军陆军炮兵防空兵学院电子工程教研室,安徽合肥 230031

详细信息

作者简介:
任远中(1986-),男,硕士生,主要从事光电子技术应用方面的研究。Email:ryz917@sina.com

中图分类号: O436

Simulation experiment of scanning angle of fiber interferometric optical phased array

Ren Yuanzhong¹,
Chai Jinhua²

1.
Graduate Student Brigade,Army Artillery and Air Defense Forces College,Hefei 230031,China;
2.
Electronic Engineering Teaching and Research Section,Army Artillery and Air Defense Forces College,Hefei 230031,China

摘要: 理论分析了光纤干涉型光学相控阵扫描角度与扫描控制电压的关系，提出了扫描角度与电压关系的实验方法，即按照场点定点的光强间接测定一定扫描控制电压对应的扫描角度；采用M-Z型干涉光路来模拟2光路的光纤干涉型相控阵进行模拟实验，通过改变相位调制器上的控制电压，对场点定点接收到的光强大小进行测试，反演出光纤干涉型相控阵实际的扫描角度。实验结果表明：扫描控制电压在相位调制的半波电压范围内，扫描控制电压要比集成波导阵列的控制电压小得多，扫描角度为0~6.2 mrad，在此范围内，扫描角度的实验值与理论值较好吻合。该模拟实验研究可以为光纤干涉型光学相控阵的远场扫描特性的进一步研究提供参考。
- 光学相控阵 /
- 光纤干涉 /
- 相位调制 /
- 扫描控制电压 /
- 扫描角度
Abstract: The relationship between scanning angle and scanning control voltage of fiber interferometric optical phased array was analyzed theoretically. An experimental method of the relationship between scanning angle and voltage was proposed, which was that the scanning angle corresponding to a certain scanning control voltage was measured indirectly according to the light intensity at a fixed point in the field. In the simulation experiment, the M-Z interferometric optical path was used to simulate the two-path optical fiber interferometric phased array. By changing the control voltage of the phase modulator, the intensity of the light received at the fixed point of the field was tested, and the actual scanning angle of the optical fiber interferometric phased array was calculated. The experimental results show that when the scanning control voltage is in the half-wave voltage range of phase modulation, and the scanning control voltage is much lower than that of integrated waveguide arrays, the scanning angle is 0-6.2 mrad. In this range, the experimental value of the scanning angle is in good agreement with the theoretical value of the scanning angle. The simulation experiment can provide a reference for further study of far-field scanning characteristics of optical fiber interferometric phased array.
- optical phased array /
- fiber interference /
- phase modulator /
- scanning control voltage /
- scanning angle

[1]	Bu Yuming, Du Xiaoping, Zeng Zhaoyang, et al. Research progress and trend analysis of non-scanning laser 3D imaging radar[J]. Chinese Optics, 2018, 11(5):711-727. (in Chinese)
[2]	Yan Yuewu, An Junming, Zhang Jiashun, et al. Research progress of optical phased array technology[J]. Laser Optoelectronics Progress, 2018, 55(2):58-68. (in Chinese)
[3]	Zong Wenpeng, Li Guangyun, Li Minglei, et al. A survey of laser scan matching methods[J]. Chinese Optics, 2018, 11(6):914-930.
[4]	Yariv A, Yeh P. Optical Electronics in Modern Communications[M]. Chen H M, Shi W H, Wang J L, et al, transl. 6th ed. Beijing:Electronic Industry Press, 2014:365-384. (in Chinese)
[5]	Chung S W, Abediasl H, Hashemi H. A monolithically integrated large-scale optical phased array in silicon-on-insulator CMOS[J]. IEEE Journal of Solid-State Circuits, 2018, 53(1):275-296.
[6]	Xia Runqiu, Chen Qingshan, Liu Yang, et al. Control method of coherent beam combining angle scanning based on linear fiber array[J]. Infrared and Laser Engineering, 2018, 47(9):0906006. (in Chinese)
[7]	Ye Jiayu, Li Lijing, Chen Wen, et al. Study on the characteristics of novel optical phased array based on wave-guide[J]. Infrared and Laser Engineering, 2017, 46(6):0620003. (in Chinese)
[8]	Ren Yuanzhong, Chai Jinhua. Research on scanning characteristics of fiber interferometric optical phased array based on phase modulation[J]. Laser Optoelectronics Progress, 2019, 56(15):152502. (in Chinese)
[9]	Wu Yalei, Wu Youjin, Zhu Longyang, et al. Mathematical model of all-fiber phase modulators with lead zirconatetitanate coating[J]. Optics and Precision Engineering, 2007(2):230-236. (in Chinese)
[10]	Niu Qifeng, Wang Chunyang, Zhang Guangping, et al.Solution of liquid crystal phased array director and its beam deflection[J]. Optics and Precision Engineering, 2018, 26(12):2894-2901. (in Chinese)
[11]	Yan Yuewu, An Junming, Zhang Jiashun, et al. Chip of phase control arrays based on silica on silicon[J]. Acta Photonica Sinica, 2019, 48(4):7-14. (in Chinese)
[12]	Chai Jinhua, Chen Fei. Methodology of filter-type multi-dithering phase control for quasi parallel light interference[J].Acta Physica Sinica, 2018, 67(1):99-110. (in Chinese)
[13]	Zhao Kaihua, Zhong Xihua. Optics[M]. Beijing:Peking University Press, 1984:154-157, 162-171. (in Chinese)

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光纤干涉型光学相控阵扫描角度的模拟实验

doi: 10.3788/IRLA201948.1218002

作者简介:
任远中(1986-),男,硕士生,主要从事光电子技术应用方面的研究。Email:ryz917@sina.com

Simulation experiment of scanning angle of fiber interferometric optical phased array

计量

光纤干涉型光学相控阵扫描角度的模拟实验

doi: 10.3788/IRLA201948.1218002

1. 中国人民解放军陆军炮兵防空兵学院研究生大队,安徽合肥 230031;

2. 中国人民解放军陆军炮兵防空兵学院电子工程教研室,安徽合肥 230031

作者简介:
任远中(1986-),男,硕士生,主要从事光电子技术应用方面的研究。Email:ryz917@sina.com

English Abstract

Simulation experiment of scanning angle of fiber interferometric optical phased array

1. Graduate Student Brigade,Army Artillery and Air Defense Forces College,Hefei 230031,China;

2. Electronic Engineering Teaching and Research Section,Army Artillery and Air Defense Forces College,Hefei 230031,China

全文HTML

目录

留言板

光纤干涉型光学相控阵扫描角度的模拟实验

doi: 10.3788/IRLA201948.1218002

作者简介: 任远中(1986-),男,硕士生,主要从事光电子技术应用方面的研究。Email:ryz917@sina.com

Simulation experiment of scanning angle of fiber interferometric optical phased array

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出版历程

光纤干涉型光学相控阵扫描角度的模拟实验

doi: 10.3788/IRLA201948.1218002

1. 中国人民解放军陆军炮兵防空兵学院 研究生大队,安徽 合肥 230031; 2. 中国人民解放军陆军炮兵防空兵学院 电子工程教研室,安徽 合肥 230031

作者简介: 任远中(1986-),男,硕士生,主要从事光电子技术应用方面的研究。Email:ryz917@sina.com

English Abstract

Simulation experiment of scanning angle of fiber interferometric optical phased array

1. Graduate Student Brigade,Army Artillery and Air Defense Forces College,Hefei 230031,China; 2. Electronic Engineering Teaching and Research Section,Army Artillery and Air Defense Forces College,Hefei 230031,China

全文HTML

目录

作者简介:
任远中(1986-),男,硕士生,主要从事光电子技术应用方面的研究。Email:ryz917@sina.com

1. 中国人民解放军陆军炮兵防空兵学院研究生大队,安徽合肥 230031;

2. 中国人民解放军陆军炮兵防空兵学院电子工程教研室,安徽合肥 230031

作者简介:
任远中(1986-),男,硕士生,主要从事光电子技术应用方面的研究。Email:ryz917@sina.com

1. Graduate Student Brigade,Army Artillery and Air Defense Forces College,Hefei 230031,China;

2. Electronic Engineering Teaching and Research Section,Army Artillery and Air Defense Forces College,Hefei 230031,China