大角度低旁瓣片上集成光学相控阵研究进展

Research Progress on Wide Field of View and Low Sidelobe On-Chip Integrated Optical Phased Array

下载PDF

导出

摘要片上集成光学相控阵采用半导体工艺可以将众多光学元件集成在同一个芯片上,在尺寸、成本、稳定性等方面展现出了突出的优势,为新一代全固态激光雷达提供了技术路线。首先介绍光学相控阵的基本原理,并以此为基础重点阐述视场角和旁瓣抑制比的数学模型;之后综述光学相控阵芯片在大视场角和高旁瓣抑制比方面的最新发展现状;最后总结现阶段片上光学相控阵面临的技术难题并展望未来的发展趋势。 On-chip integrated optical phased arrays(OPA),which utilize semiconductor processes to integrate multiple optical components onto a single chip,demonstrate remarkable advantages in size,cost,and stability,thereby enabling next-generation all-solid-state light detection and ranging(LiDAR)systems.This paper first introduces the fundamental principles of OPA,followed by a detailed exposition of mathematical models of the field of view(FOV)and sidelobe suppression ratio(SLSR).Subsequently,we review recent advances in OPA chips regarding wide FOV and high SLSR.Finally,we summarize current technical challenges in on-chip OPA and provide perspectives on future development trajectories.

作者赵世周卫文夏团结徐冰清陈敬业连岱欣叶永祺时尧成 ZHAO Shi;ZHOU Weiwen;XIA Tuanjie;XU Bingqing;CHEN Jingye;LIAN Daixin;YE Yongqi;SHI Yaocheng(College of Optical Science and Engineering,Zhejiang University,Hangzhou 310058;Shanghai Aerospace Control Technology Institute,Shanghai 201109)

机构地区浙江大学光电科学与工程学院上海航天控制技术研究所

出处《飞控与探测》 2026年第1期20-31,共12页 Flight Control & Detection

基金上海市启明星培育(扬帆专项)(24YF2718300)。

关键词集成光学硅基光子学光学相控阵光束偏转激光雷达 integrated optics silicon photonics optical phased array beam steering light detection and ranging

分类号 TN252 [电子电信—物理电子学] TN256 [电子电信—物理电子学]

引文网络
相关文献

参考文献4

1YINGZHI LI,BAISONG CHEN,QUANXIN NA,QIJIE XIE,MIN TAO,LANXUAN ZHANG,ZIHAO ZHI,YUXUAN LI,XIAOBIN LIU,XIANSHU LUO,GUOQIANG LO,FENGLI GAO,XUEYAN LI,JUNFENG SONG.Wide-steering-angle high-resolution optical phased array[J].Photonics Research,2021,9(12):2511-2518. 被引量：25
2WENLEI LI,XU ZHAO,JIANGHAO HE,HAO YAN,BINGCHENG PAN,ZICHEN GUO,XIANG’E HAN,JINGYE CHEN,DAOXIN DAI,YAOCHENG SHI.High-speed 2D beam steering based on a thin-film lithium niobate optical phased array with a large field of view[J].Photonics Research,2023,11(11):1912-1918. 被引量：3
3Changjian Xie,Xihua Zou,Fang Zou,Lianshan Yan,Wei Pan,Yong Zhang.A 32-channel 100 GHz wavelength division multiplexer by interleaving two silicon arrayed waveguide gratings[J].Chinese Physics B,2021,30(12):339-342. 被引量：4
4HUAQING QIU,YONG LIU,XIANSONG MENG,XIAOWEI GUAN,YUNHONG DING,HAO HU.Bidirectional high sidelobe suppression silicon optical phased array[J].Photonics Research,2023,11(4):659-668. 被引量：6

二级参考文献4

1PENGFEI WANG,GUANGZHEN LUO,YANG XU,YAJIE LI,YANMEI SU,JIANBIN MA,RUITING WANG,ZHENGXIA YANG,XULIANG ZHOU,YEJIN ZHANG,JIAOQING PAN.Design and fabrication of a SiN-Si dua卜layer optical phased array chip[J].Photonics Research,2020,8(6):912-919. 被引量：12
2YINGZHI LI,BAISONG CHEN,QUANXIN NA,QIJIE XIE,MIN TAO,LANXUAN ZHANG,ZIHAO ZHI,YUXUAN LI,XIAOBIN LIU,XIANSHU LUO,GUOQIANG LO,FENGLI GAO,XUEYAN LI,JUNFENG SONG.Wide-steering-angle high-resolution optical phased array[J].Photonics Research,2021,9(12):2511-2518. 被引量：25
3YIWEN ZHANG,LINBO SHAO,JINGWEI YANG,ZHAOXI CHEN,KE ZHANG,KAM-MAN SHUM,DI ZHU,CHI HOU CHAN,MARKO LONČAR,CHENG WANG.Systematic investigation of millimeter-wave optic modulation performance in thin-film lithium niobate[J].Photonics Research,2022,10(10):2380-2387. 被引量：7
4ZHIZHANG WANG,WANGE SONG,YUXIN CHEN,BIN FANG,JITAO JI,HAORAN XIN,SHINING ZHU,TAO LI.Metasurface empowered lithium niobate optical phased array with an enlarged field of view[J].Photonics Research,2022,10(11). 被引量：3

共引文献27

1AROUTIN KHACHATURIAN,REZA FATEMI,ALI HAJIMIRI.Achieving full grating-lobe-free field of view with low-complexity co-prime photonic beamforming transceivers[J].Photonics Research,2022,10(5). 被引量：2
2马浩然,李筱敏,王曰海,杨建义.硅基光子芯片研究进展与挑战[J].半导体光电,2022,43(2):218-229. 被引量：3
3李超林,刘俊辰,张福民,曲兴华.频率调制连续波激光雷达测量技术的非线性校正综述[J].光电工程,2022,49(7):1-27. 被引量：13
4CHAO XIANG,WARREN JIN,JOHN E.BOWERS.Silicon nitride passive and active photonic integrated circuits:trends and prospects[J].Photonics Research,2022,10(6). 被引量：15
5尹悦鑫,许馨如,丁颖智,姚梦可,曾国宴,张大明.三维光子集成芯片的进展与挑战(特邀)[J].光子学报,2022,51(7):327-342. 被引量：4
6YAOCHENG SHI,YONG ZHANG,YATING WAN,YU YU,YUGUANG ZHANG,XIAO HU,XI XIAO,HONGNAN XU,LONG ZHANG,BINGCHENG PAN.Silicon photonics for high-capacity data communications[J].Photonics Research,2022,10(9). 被引量：10
7葛增辉,黄蕴涵,刘智颖.基于填充因子的微透镜阵列扫描光学系统性能分析[J].光学学报,2023,43(9):107-116. 被引量：2
8阳琴,陈孝林,曾诚,徐诗月,杨峰,高剑波.硅基片上激光雷达技术综述[J].激光与光电子学进展,2023,60(16):12-25. 被引量：9
9WENLEI LI,XU ZHAO,JIANGHAO HE,HAO YAN,BINGCHENG PAN,ZICHEN GUO,XIANG’E HAN,JINGYE CHEN,DAOXIN DAI,YAOCHENG SHI.High-speed 2D beam steering based on a thin-film lithium niobate optical phased array with a large field of view[J].Photonics Research,2023,11(11):1912-1918. 被引量：3
10马凤瑞,段发阶,刘文正,傅骁,张聪.基于偏振的双准直光束测量滚转角的自校准方法[J].激光与光电子学进展,2023,60(23):145-153. 被引量：4

1任心畅,吴海.“拍照神器”——胸部CT[J].家庭用药,2026(3):129-129.
2范少泉.高压变频器模块化多电平拓扑优化与输出性能提升[J].中国建筑,2025,8(23):157-159.
3宁玉鸣,马骞,崔铁军.电磁域类脑计算研究进展和方向探讨[J].陆军工程大学学报,2026,5(1):1-9.
4丘水林.磁集成技术对软磁材料有何要求?[J].磁性元件与电源,2025(4):70-70.
5施翔,任嘉欣,刘会龙,沈宏君,万磊.基于薄膜铌酸锂多模光波导的高效声光调制器优化设计[J].压电与声光,2026,48(1):1-5.
6翁寅熙,周良将,梁伟.基于改进参数化时频分析方法的低信噪比SAR距离向参数估计方法[J].信号处理,2026,42(2):221-234.
7陶骁,史庆杰,周卫文,黄玲玲,易飞.可调谐超构表面在红外探测成像中的研究进展[J].飞控与探测,2026,9(1):78-98.
8孙中田.《子夜》出版前后[J].新文学史料,1981(3):190-192.
9蔡瑀泽,史浩东,高士明,刘智,刘东旭,罗钟林,董科研.基于空间光调制器的一对多空间激光通信多光束高精度指向控制[J].光学学报,2025,45(21):40-49.
10沈尹默.回忆五四[J].新文学史料,1979(3):31-32. 被引量：1

飞控与探测

2026年第1期

浏览历史

内容加载中请稍等...

大角度低旁瓣片上集成光学相控阵研究进展

参考文献4

二级参考文献4

共引文献27

相关作者

相关机构

相关主题

浏览历史