Company Filing History:
Years Active: 2008
Title: The Innovative Mind of Yue-Hong Chou: A Leading Inventor in Guided-Mode Resonance Filters
Introduction
Yue-Hong Chou, based in Taoyuan, Taiwan, is a notable inventor recognized for his contributions to the field of optical technology. His innovative work in developing advanced filters through unique methodologies has garnered attention in the scientific community. With one patent to his name, Chou continues to push the boundaries of technology and research.
Latest Patents
Chou's patent, titled "Guided-mode resonance filter and fabrication method of same," showcases his expertise in silicon bulk-micromachining technology. This patent describes a process to fabricate a Guided Mode Resonance (GMR) filter by utilizing the structure of a suspended silicon nitride (SiNx) membrane positioned on a silicon substrate. The innovative technique involves the formation of two silicon nitride thin films on opposite sides of the substrate, defining a first opening in the first film while creating a grating structure in the second. Through a carefully orchestrated etching process, a light path space is established, which defines the efficiency and effectiveness of the GMR filter.
Career Highlights
Yue-Hong Chou is affiliated with National Central University, where he engages in research and development that integrates academic theories with practical applications. His work not only enhances the university's reputation in the field of innovation but also contributes significantly to advancements in optical technologies.
Collaborations
Throughout his career, Yue-Hong Chou has worked closely with esteemed colleagues such as Jenq-Yang Chang and Mount-Learn Wu. These collaborations have proven vital in facilitating a robust exchange of ideas, leading to further enhancements in their collective research outcomes.
Conclusion
Yue-Hong Chou stands as a paragon of innovation in Taiwan, particularly in the realm of guided-mode resonance filters. His pioneering efforts in the development of these advanced devices reflect a commitment to enhancing technological capabilities. As he continues his work at National Central University, his influence on the field of optics and micromachining technology is likely to expand, paving the way for future breakthroughs.