Simulating Light from Free Space to Nano-Scale: Dynamic Link Between Zemax & Lumerical-Part1

In this video, I explore the dynamic integration between Zemax (ray optics) and Lumerical (wave optics) to simulate light propagation from free space to the nano-scale. This powerful workflow allows for seamless optical design, moving from traditional ray-based optics to more advanced wave-based simulations. You’ll see how we can bridge the gap between free-space light and nanostructures by combining the strengths of Zemax and Lumerical. Whether you’re working with optical systems or designing components at the nano-scale, this video shows how to simulate light behavior at every level of precision. Key topics covered: Transitioning from ray optics to wave optics simulations Using Zemax and Lumerical for multi-scale light propagation Practical examples in AR/VR optical systems design Understanding how light interacts with nano-scale structures This is a must-watch for optical engineers, researchers, and anyone interested in multi-physics simulations, whether for AR/VR applications or any optical design challenges involving complex light interactions. Please subscribe to our Ozen Engineering Inc YouTube channel: @OzenEngineeringSimulation Please subscribe to our Ozen Engineering Inc Blog: ​ Visit our Website: ​ Follow us on LinkedIn: ​ About Ozen Engineering: ​ Ozen Engineering is a leading provider of Ansys solutions, catering to a diverse range of industries with a specialization in electronics, semiconductor, biomedical, healthcare, aerospace and automotive applications. Our team delivers personalized solutions to optimize product design and performance by seamlessly integrating Ansys simulation into the product development process. As an elite channel partner of Ansys, we provide best-in-class software tools, consulting, training, mentoring, and technical support. Majid Ebnali Heidari, Ph.D. Technical Manager - Photonics Ozen Engineering, Inc. - Ansys Elite Channel Partner America’s Channel Partner of the Year: 2015, 2018, 2021,2023 Email: @