Litcius/Paper detail

Lissajous MEMS laser beam scanner with uniform and high fill-factor projection for augmented reality display

Bin Xu, Chenhao Xu, Yao Ji, Bo Zhang, Jinhua Li

2023Optics Express15 citationsDOIOpen Access PDF

Abstract

MEMS Laser beam scanning (LBS) has been identified as a key advancement for augmented reality (AR) displays due to its ability to create compact optical systems that generate bright, high-contrast images with minimal heat dissipation. This innovation can be attributed to the focus-free, efficient light-on-demand pixel projection mechanisms integral to LBS. The LBS, specifically in Lissajous-mode, outperforms the raster-mode in terms of larger scan angles and stability to external vibrations, by leveraging a MEMS mirror operating at bi-axial resonance. However, it tends to be hampered by small mirror aperture, low fill-factor, and inconsistent uniformity of image projection. In this research, a unique gimbal-less Lissajous MEMS scanner was proposed. It employs a bi-axial high frequency of 12,255 Hz and 7,182 Hz to achieve a resolution of 640 × 360 pixels and a video refresh rate of 57 Hz, all while maintaining a high image fill factor of 85.11%. The robust structure of the mirror is proven to sustain stable scanning under broad spectrum of external vibration disturbance up to 2,000 Hz. Furthermore, the large mirror diameter of 2 mm improves refined pixel projection and increased optical etendue for exit pupil. Mathematic model of Lissajous pixel-cells and image reconstruction simulation were established to validate the LBS's ability to generate a uniform and densely pixelated visual effect that fits for typical AR head-up display (AR-HUD). In a pioneering move, performance metric of figure-of-merit was defined to evaluate AR light-engines using varied picture-generation techniques, laying a foundation for guiding future AR system development.

Topics & Concepts

Lissajous curveOpticsRaster scanProjection (relational algebra)ScannerPixelRefresh rateComputer scienceMicroelectromechanical systemsDeformable mirrorLaser scanningComputer visionPhysicsArtificial intelligenceLaserAdaptive opticsOptoelectronicsAlgorithmAdvanced Optical Imaging TechnologiesOptical Coherence Tomography ApplicationsAdvanced optical system design