Sub-second volumetric 3D printing by synthesis of holographic light f ields
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Sub-second volumetric 3D printing by synthesis of holographic light f ields
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The provided source describes DISH (Digital Incoherent Synthesis of Holographic Light Fields), a novel 3D printing technology designed to overcome the trade-off between high-speed mass production and microscopic precision. Traditional volumetric methods often struggle with mechanical vibrations and light diffraction, but DISH utilizes a coarse-to-fine holographic optimization algorithm and a single-side illumination system to achieve rapid, high-resolution fabrication of millimetre-scale objects. By integrating these optical advancements with a fluidic control system, the researchers demonstrate the ability to print complex, unsupported structures in a continuous flow across various materials, including biocompatible hydrogels and elastic resins. Ultimately, this framework aims to bridge the gap between laboratory-scale prototyping and industrial manufacturing for applications in tissue engineering, photonics, and drug screening.
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