Company Filing History:
Years Active: 2019-2020
Title: David Ziegler: Innovator in Holographic Optical Elements
Introduction
David Ziegler is a prominent inventor based in Lausanne, Switzerland. He has made significant contributions to the field of optical technology, particularly in the development of lenses with embedded holographic optical elements. With a total of 8 patents to his name, Ziegler's work is at the forefront of innovations in wearable projection systems.
Latest Patents
Ziegler's latest patents include groundbreaking methods for manufacturing lenses that incorporate holographic optical elements. One notable patent describes a lens designed for a wearable projection system, which features a holographic optical element embedded within the lens. This innovative design allows for enhanced visual experiences by covering a portion of the viewable area of the lens. The manufacturing process involves filling a cavity in a lens blank with a photosensitive material and exposing it to multiple light beams to create the holographic optical element. Another patent outlines a similar lens structure, emphasizing the embedding of the optical element between two lens blanks to optimize performance.
Career Highlights
Throughout his career, David Ziegler has worked with leading technology companies, including North Corporation and Intel Corporation. His experience in these organizations has allowed him to refine his skills and contribute to cutting-edge projects in optical technology.
Collaborations
Ziegler has collaborated with notable professionals in his field, including Mickael Guillaumee and Christophe Moser. These partnerships have fostered innovation and have been instrumental in advancing the development of holographic optical elements.
Conclusion
David Ziegler's contributions to the field of optical technology are significant and impactful. His innovative patents and collaborations highlight his dedication to advancing wearable projection systems. As technology continues to evolve, Ziegler's work will undoubtedly play a crucial role in shaping the future of optical devices.