2026-05-07 マサチューセッツ工科大学(MIT)
This illustration shows an array of integrated antennas developed by MIT researchers (right) that minimizes the unwanted crosstalk that can occur in a standard antenna array (left). This innovation could enable a lidar chip to scan a wider field of view while maintaining low-noise operation.Credit: Amy Pan and Sampson Wilcox
<関連情報>
- https://news.mit.edu/2026/photonics-advance-could-enable-compact-high-performance-lidar-sensors-0507
- https://www.nature.com/articles/s41467-026-71832-y
グレーティングローブフリーかつ広視野角の集積型光フェーズドアレイ向け、クロストーク低減アンテナ Reduced-crosstalk antennas for grating-lobe-free and wide-field-of-view integrated optical phased arrays
Henry Crawford-Eng,Andres Garcia Coleto,Benjamin M. Mazur,Daniel M. DeSantis,Tal Sneh & Jelena Notaros
Nature Communications Published:07 May 2026
DOI:https://doi.org/10.1038/s41467-026-71832-y
Abstract
Integrated optical phased arrays (OPAs) have emerged as a promising technology for many applications due to their ability to dynamically control free-space optical beams in a compact and non-mechanical manner. However, these integrated OPAs typically have a restricted field of view (FOV), limited by grating lobes caused by large antenna pitches that are typically necessary to reduce crosstalk between the antennas in the integrated OPA. In this work, we develop and experimentally demonstrate for the first time, to the best of our knowledge, a set of integrated grating-based antennas with significantly-reduced inter-antenna crosstalk that enable half-wavelength-pitch integrated OPAs with grating-lobe-free and wide-FOV functionality. First, we derive a generalized theoretical model to describe the coupling dynamics between lossy modes in a system and use this model to analyze the coupling between antennas. Next, we design and demonstrate a set of three integrated grating-based antennas with different propagation coefficients to enable reduced inter-antenna crosstalk, successfully measuring a significant reduction from 100% to 1% coupling. Finally, using these reduced-crosstalk antennas, we develop and demonstrate a half-wavelength-pitch integrated OPA, successfully demonstrating grating-lobe-free and wide-FOV functionality. This work facilitates new functionality for high-performance integrated OPAs.
