Journal Article10.1515/nanoph-2023-0519
Grating-lobe-free optical phased array with 2-D circular sparse array aperture and high-efficiency phase calibration
Daixin Lian,Shi Zhao,Wenlei Li,Jingye Chen,Daoxin Dai,Yaocheng Shi +5 more
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TL;DR: Grating-lobe-free OPA with 2-D circular sparse array aperture and high-efficiency phase calibration achieves low side lobe and high beam resolution.
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Abstract: Abstract An optical phased array (OPA) with 2-D circular sparse array aperture has been proposed and demonstrated in the silicon integrated photonic platform. The sparse distribution of the antenna array can realize no grating lobes in 2-D full field of view (FOV). To achieve fast and accurate phase calibration for OPA, an improved rotating element electric field vector algorithm based on golden section search method (GSS-REV) has also been proposed and verified. The 32-element antenna sparse distribution of the proposed OPA is designed and fabricated. A far-field beam steering measurement across 20° × 20° range features the side lobe suppression ratio (SLSR) of larger than 4.81 dB and a full width at half-maximum (FWHM) of approximately 0.63° × 0.59°. The resolvable points are derived to be ∼1076. The OPA chip has also been demonstrated on range measurement with frequency-modulated continuous-wave (FMCW) system.
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Citations
Ultra‐Sparse Aperiodic Silicon Optical Phased Array Using High‐Performance Thermo‐Optic Phase Shifter
Huahai Qiu,Yong Liu,Xiaowei Guan,Yunhong Ding,Hao Hu +4 more
- 16 May 2024
TL;DR: Ultra-sparse aperiodic silicon optical phased array with high performance and low power consumption for long-range LiDAR.
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Abstract: 光学相控阵技术通过调节和控制光学天线阵元的相对相位,可实现高速灵活的定向辐射,逐渐发展成为非机械式光束控制的主流方案。其兼具功耗低、集成度高、体积小、质量轻等优点,可以同时控制多波束的收发,满足未来一对多激光通信的迫切发展需求。本文主要针对光学相控阵技术当前三种主流的技术方案在激光通信领域的应用现状进行阐述,对比给出了基于液晶、微机电系统和集成光波导平台的技术特点和应用优劣。最后针对光学相控阵技术在激光通信领域的未来发展,给出了笔者的一些思考与建议。
On-Chip Calibration of an Optical Phased Array Through Chip Facet Reflections
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- 01 Jan 2024
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TL;DR: Researchers propose a mode-multiplexed optical phased array system using a double-layer planar grating, achieving a 97°×30° beam scan and 0.3°/nm wavelength tuning efficiency, suitable for LiDAR applications in autonomous driving.
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