Wave and Ray Optics for Light-Based Tomographic 3D Printing
Offered By: The Julia Programming Language via YouTube
Course Description
Overview
Explore wave and ray optics for light-based tomographic 3D printing in this JuliaCon 2024 conference talk. Dive into four key Julia packages: RadonKA.jl for fast Radon transforms, DiffImageRotation.jl for differentiable image rotation, WaveOpticsPropagation.jl for efficient wave optical propagations, and SwissVAMyKnife.jl for solving optimization problems in Tomographic Volumetric Additive Manufacturing (TVAM). Learn about the implementation of exponential Radon transforms, CUDA-supported image rotation, scalable angular spectrum methods, and Fraunhofer diffraction propagation. Gain insights into the novel TVAM technique for rapid centimeter-scale 3D printing. Access the presented notebook on GitHub and discover how these packages contribute to advancing light-based 3D printing technology.
Syllabus
Wave and Ray Optics for Light Based Tomographic 3D printing | Wechsler | JuliaCon 2024
Taught by
The Julia Programming Language
Related Courses
AP® Physics 2: Challenging ConceptsDavidson College via edX AP® Physics 2 - Part 3: Optics and Modern Physics
Rice University via edX Conceptual Physics
Cabrillo College via California Community Colleges System Phys Scients/Engnrs III
Cabrillo College via California Community Colleges System Conceptual Physics
City College of San Francisco via California Community Colleges System