Location History:
- Chonan Chungchongnam-Do, KR (2008)
- Gwangju, KR (2015)
Company Filing History:
Years Active: 2008-2015
Title: Hyon Chol Kang: Innovator in Multilayer Laue Lens Technology
Introduction
Hyon Chol Kang is a notable inventor based in Gwangju, South Korea. He has made significant contributions to the field of optics, particularly in the development of multilayer Laue lenses. With a total of 2 patents, his work focuses on innovative methods for fabricating advanced optical devices.
Latest Patents
Hyon Chol Kang's latest patents include the "Zone Compensated Multilayer Laue Lens and Apparatus and Method of Fabricating the Same." This invention features a multilayer Laue lens that incorporates a compensation layer positioned between two multilayer sections. Each section consists of alternating layers made from two different materials. The design allows for a thickness gradient that enhances the lens's performance by eliminating strict placement error requirements.
Another significant patent is the "Method of Making and Structure of Multilayer Laue Lens for Focusing Hard X-Rays." This invention describes a zone plate multilayer structure that includes a substrate with alternating layers of tungsten silicide and silicon. The precise control of layer thickness from a minimum of less than or equal to 5 nm to a maximum of over 12 microns enables effective diffraction of x-rays in Laue transmission geometry.
Career Highlights
Hyon Chol Kang has worked with prominent organizations such as UChicago Argonne, LLC and Brookhaven Science Associates, LLC. His experience in these institutions has allowed him to collaborate on cutting-edge research and development projects in the field of optics.
Collaborations
Some of his notable coworkers include Chian Qian Liu and Raymond P Conley. Their collaborative efforts have contributed to advancements in multilayer lens technology.
Conclusion
Hyon Chol Kang's innovative work in multilayer Laue lens technology showcases his expertise and dedication to advancing optical science. His patents reflect a commitment to improving the functionality and precision of optical devices.