Litcius/Paper detail

Thermo-Optic Beam Scanner Employing Silicon Photonic Crystal Slow-Light Waveguides

T. Tamanuki, Hiroyuki Ito, Toshihiko Baba

2020Journal of Lightwave Technology24 citationsDOIOpen Access PDF

Abstract

Optical beam scanning is a widely utilized function in optical systems and a compact nonmechanical solid-state device has long been anticipated. Here, we have studied such a device consisting of photonic crystal slow-light waveguides and switch trees, fabricated by a Si photonics process, employing a bespoke prism lens for beam collimation. Further in this study, we particularly demonstrated the operation of the device only by the thermo-optic (TO) tuning of its components, at a fixed wavelength of light. A spot beam of ~0.1° divergence, was scanned in two dimensions, in the angular range of 40° × 8.8° and average power consumption of <; 0.7 W. Neglecting some disordered beams caused by the non-uniformity of the fabricated device, the estimated number of resolution points was 400 × 32 = 12,800, which required a significant effort in the device fabrication and calibration, utilizing optical-phased arrays, if the same performance was targeted.

Topics & Concepts

OpticsMaterials sciencePrismPhotonic crystalCollimated lightOptoelectronicsBeam steeringBeam (structure)Beam divergenceBeam splitterLens (geology)Light beamPhotonicsPhased-array opticsSilicon photonicsOptical powerBeam diameterPhased arrayLaserPhysicsLaser beamsComputer scienceAntenna (radio)TelecommunicationsPhotonic Crystals and ApplicationsPhotonic and Optical DevicesFern and Epiphyte Biology