Butler matrix enabled multi-beam optical phased array for two-dimensional beam-steering and ranging
Zuoyu Zhou, Weihan Xu, Chuxin Liu, Ruiyang Xu, Zhu Chen, Xinhang Li, Liangjun Lu, Jianping Chen, Linjie Zhou
Abstract
Based on the wavelength transparency of the Butler matrix (BM) beamforming network, we demonstrate a multi-beam optical phased array (MOPA) with an emitting aperture composed of grating couplers at a 1.55 μm pitch for wavelength-assisted two-dimensional beam-steering. The device is capable of simultaneous multi-beam operation in a field of view (FOV) of 60° × 8° in the phased-array scanning axis and the wavelength-tuning scanning axis, respectively. The typical beam divergence is about 4° on both axes. Using multiple linearly chirped lasers, multi-beam frequency-modulated continuous wave (FMCW) ranging is realized with an average ranging error of 4 cm. A C-shaped target is imaged for proof-of-concept 2D scanning and ranging.