SVG proposes to research advanced materials and functional optoelectronic devices based on the micro-nano structural morphology of voxels. By leveraging the requirements for optical efficiency and three-dimensional perception, it calculates the design data for stereoscopic images, establishing a novel design processing methodology and micro-nano manufacturing technology.

• Multi-dimensional document definition: Supports structural design and data processing of optical textures with general characteristics (4-5 dimensional variables)
• Advanced algorithms and software: Massive data processing necessitates advanced algorithms and processing software
• Grayscale 3D lithography technology: Enables converting data into Voxel micro/nano-structured morphology for 3D lithographic direct writing for digital light field

Integration of vector lines, 3D topography, and pixelated digital templates (Tb data processing capabilities)

• Massive data processing of 3D images
• Up to 6Tbit of data for an A4-sized image
• 300mmx200mm/0.1um/0.1um

3D lithography processes: Catalyzing new products, materials, and devices

Planar imaging, virtual-real fusion displays, transparent electrodes and antennas, aircraft drag reduction and de-icing, solar light trapping, medical 3D imaging, microwave photonics and photonic chips, optical field control materials, photoelectric conversion devices, etc.