Synthetic color-and-depth encoded (sCade) illumination-based high-resolution light field particle imaging velocimetry

Abstract

Light-field particle imaging velocimetry (LF-PIV) is widely used in large-scale flow field measurement scenarios due to its instant 3D imaging capability. However, conventional LF-PIV systems suffer low axial resolution and thereby have limited application in high-resolution and volumetric velocity measurements. Here, we report the use of synthetic color-and-depth-encoded (sCade) illumination to improve the axial resolution of LF-PIV. The sCade LF-PIV illuminated the imaging region with a color-and-depth encoded beam synthesized by structured beams of three lasers with distinct wavelengths and attained high-fidelity particle localization by decoding the color and depth information encoded in the acquired image. We systematically characterized the system performance by imaging particles and obtained 29 times improvement in axial resolution when compared to traditional LF-PIV. The high axial resolution of sCade LF-PIV allowed it to reconstruct vortices generated by square lid-driven cavity flow and a stirring disk with higher accuracy and smaller errors than the conventional method, highlighting the possibility and advantage of sCade LF-PIV for high-resolution and volumetric flow measurement applications. This approach can favorably advance the development of fluid measurement technology.