Company Filing History:
Years Active: 2023
Title: Guoqing Shen: Innovator in Sub-Wavelength Structural Materials
Introduction
Guoqing Shen is a prominent inventor based in Sichuan, China. He has made significant contributions to the field of materials science, particularly in the development of sub-wavelength structural materials. His innovative work focuses on enhancing the compatibility of materials for low detectability in various electromagnetic applications.
Latest Patents
Guoqing Shen holds a patent for a sub-wavelength structural material that features a patch type array and is designed for low detectability in infrared, laser, and microwave applications. The patent describes a structure that includes a metal type frequency selective surface layer I, a dielectric layer I, a metal type frequency selective surface layer II, a dielectric layer II, and a resistive film, followed by a dielectric layer III. Each metal type frequency selective surface layer is a sub-wavelength patch type array, utilizing materials with low infrared emissivity. This innovative design modulates phase through patches of varying sizes, effectively controlling backscattering of incident electromagnetic waves to achieve low detectability for laser and infrared, while the lower layers facilitate microwave absorption. Guoqing Shen has 1 patent to his name.
Career Highlights
Guoqing Shen is affiliated with the Chinese Academy of Sciences, where he conducts research and development in advanced materials. His work has garnered attention for its potential applications in stealth technology and other fields requiring low detectability.
Collaborations
Guoqing Shen has collaborated with notable colleagues, including Xiangang Luo and Mingbo Pu, contributing to advancements in their shared research interests.
Conclusion
Guoqing Shen's innovative work in sub-wavelength structural materials showcases his expertise and commitment to advancing technology in low detectability applications. His contributions are significant in the realm of materials science and continue to influence future developments.