Optics.org
daily coverage of the optics & photonics industry and the markets that it serves
Featured Showcases
Photonics West Showcase
Optics+Photonics Showcase
News
Menu
Photonics World

Photonics West 2021: CEA-Leti predicts wider use of LiDAR based on integrated OPAs

09 Mar 2021

Optical phased arrays systems will cut cost and size of systems and boost performance, say researchers.

Taking a critical step toward developing LiDAR systems for widespread commercial applications, France-based research organization CEA-Leti has developed genetic algorithms to calibrate high-channel-count optical phased arrays (OPAs), as well as an advanced measurement setup enabling wafer-scale OPA characterization.

OPAs are an emerging technology made of arrays of closely-spaced (around 1µm) optical antennas and which radiate coherent light in a broad angular range. The produced interference pattern can then be changed by adjusting the relative phase of the light emitted by each antenna. By changing the slope of the linear gradient, the direction of the beam can be controlled, which enables solid-state beam steering.

This can improve performance in scanning speed, power efficiency and resolution compared to the heavy, power-hungry and expensive mechanical beam-steering systems used in current LiDARs. An additional feature of OPA-based LiDAR systems is that they have no moving parts, as the solid-state beam steering is achieved only by phase tuning the antennas, which significantly reduces the size and cost of these systems.

CEA-Leti reported the calibration and characterization results this week at SPIE Photonics West 2021 Digital Forum, in a paper entitled “Development, Calibration and Characterization of Silicon Photonics-Based Optical Phased Arrays”.

More inexpensive LiDAR systems

“The development of a high-performance OPA would pave the way to inexpensive LiDAR systems for autonomous vehicles, holographic displays, biomedical imaging and many other applications,” said Sylvain Guerber, the lead author of the paper. But widespread adoption of LiDAR will depend on lower system costs and smaller form factors.

Commercial LiDAR systems must meet stringent requirements, especially for automotive applications. In particular, a high-power and low-divergence beam is needed to accurately resolve a scene. For example, resolving a 100mm object at 100m requires an OPA operating at a wavelength of 1µm with a circuit comprising at least 1,000 antennas, each spaced 1µm apart. Therefore, the development of high-channel-count OPAs is necessary for a commercial OPA-based LiDAR system.

“An integrated chip-scale OPA with solid-state beam steering can be produced by leveraging the benefits of a mature silicon photonics platform,” Guerber said. However, this is only the first step toward a fully functional OPA because beam scanning requires a preliminary calibration.

Due to the high number of required optical antennas, this calibration process can take a large amount of time, which is incompatible with massive deployment of a technology. Thus, the CEA-Leti team has developed what may be the first wafer-scale OPA characterization setup, which is an important step toward industrialization of OPA-based LiDARs.

In addition, genetic algorithms based on Darwin's theory of evolution have been developed to quickly and reliably calibrate high-channel-count OPAs. These allow up to 1,000x faster calibration than previously used algorithms.

Guerber noted that broad commercial adoption of LiDAR technology by the automotive industry and other markets is projected to be several years down the road. OPAs are a critical step, which CEA-Leti will continue to work on.

“There are still a lot of challenges, especially at the system level,” he explained. "A LiDAR is composed of many elements: a laser, an electronic driver, an OPA steering system, a detector and data-treatment capability. All of them must work together; the OPA is only a part of the system.

Changchun Jiu Tian  Optoelectric Co.,Ltd.ABTechUniverse Kogaku America Inc.HÜBNER PhotonicsPhoton Lines LtdLASEROPTIK GmbHCeNing Optics Co Ltd
© 2024 SPIE Europe
Top of Page