Litcius/Paper detail

Multi-beam solid-state LiDAR using star-coupler-based optical phased arrays

Daniel M. DeSantis, Benjamin Mazur, Milica Notaros, Jelena Notaroš

2024Optics Express16 citationsDOIOpen Access PDF

Abstract

Solid-state light-detection-and-ranging (LiDAR) sensors based on integrated optical phased arrays (OPAs) have shown significant promise to reduce the cost, size, weight, and power consumption associated with LiDAR for autonomous systems. However, these OPA-based LiDAR systems typically operate by rastering a single beam, generating point clouds that constitute a significant amount of data and computational burden in the process. In this paper, we develop and experimentally demonstrate a novel multi-beam solid-state OPA-based LiDAR system capable of detecting and ranging multiple targets simultaneously, passively, and without rastering. Specifically, we develop the devices, subsystems, and system architectures to realize a solid-state frequency-modulated-continuous-wave (FMCW) LiDAR system that leverages a discrete-Fourier-transform star-coupler-based OPA as a receiver and a multi-beam splitter-tree-based OPA as a transmitter. Using this multi-beam LiDAR system, we demonstrate the simultaneous detection and ranging of two targets at two different cross-range positions without rastering. Through this work, we demonstrate a new spatially-adaptive sensing modality for solid-state LiDAR that enables improved spatial awareness and promises to reduce the data deluge associated with LiDAR in autonomous systems.

Topics & Concepts

OpticsLidarPhased-array opticsBeam (structure)Laser beamsMaterials scienceStar (game theory)Phased arraySolid-statePhysicsLaserTelecommunicationsComputer scienceEngineering physicsAntenna (radio)AstrophysicsPhotonic and Optical DevicesAdvanced Optical Sensing TechnologiesAdvanced Fiber Laser Technologies