EurekAlert November 13, 2020 Current technology in LiDARS bounces the laser beams off moving mirrors, a mechanical method that results in slower scanning speeds and inaccuracies. Researchers in Japan have developed a new beam scanning device utilizing ‘photonic crystals’ whose lattice points can be arranged as nanoscale antennae. They found that by adjusting both position and size resulted in a seemingly random photonic crystal, producing an accurate beam without power loss. They called this a ‘dually modulated photonic crystal’. They showed that the scanner can generate beams in one hundred different directions: a resolution of 10×10. With further refinements, the […]
Tag Archives: Photonic crystal
Slow light to speed up LiDAR sensors development
Phys.org January 14, 2020 Currently existing optical beam steering devices uses mechanics that make them large, unstable, heavy, with limited overall speed and a high cost. Optical phased arrays for steering beams requires many optical antennas. Researchers in Japan used a special waveguide “photonic crystal,” aimed through a silicon-etched medium. Light is slowed down and emitted to the free space when forced to interact with the photonic crystal. They engaged a prism lens to then direct the beam in the desired direction. The resulting method and device are small-sized, free of moving mechanics, setting the stage for a solid-state LiDAR. […]