Company Filing History:
Years Active: 2006
Title: **Innovator Spotlight: Hung-Te Hsieh and His Contributions to Optical Technology**
Introduction
Hung-Te Hsieh, an inventive mind based in Pasadena, CA, has made significant strides in the realm of optical technology. With a unique perspective on thermal design, Hsieh's innovations contribute to advancements in holographic filters, showcasing his dedication to improving light filtration methods.
Latest Patents
Hung-Te Hsieh holds a patent titled "Apparatus and method of using a thermal design for wavelength division multiplexed holographic filters." This innovative apparatus is designed for temperature compensation when filtering light. It includes a holographically recorded grating within a photosensitive layer that effectively filters light incident at a predetermined angle. A notable feature of his invention is the angulation mechanism, which adjusts the grating in response to temperature variations. This adjustment ensures that the filtration remains constant despite temperature fluctuations, enhancing the reliability of optical systems.
Career Highlights
Hsieh is affiliated with the California Institute of Technology, a prestigious institution known for its cutting-edge research and innovation in science and technology. His role at Caltech allows him to collaborate with leading experts in the field, driving forward research that can have substantial impacts on various applications ranging from telecommunications to materials science.
Collaborations
Throughout his career, Hung-Te Hsieh has had the privilege of collaborating with distinguished colleagues such as Demetri Psaltis and George Panotopoulos. These collaborations not only enrich his work but also contribute to a vibrant research environment where innovation thrives.
Conclusion
Hung-Te Hsieh's contributions to optical technology, particularly through his patented methods for holographic filtering, stand as a testament to the impact of dedicated inventors in advancing scientific understanding and practical applications. His work continues to inspire the field, paving the way for future innovations that harness the power of light.