Location History:
- Soraku-gun, JP (2000)
- Kashihara, JP (2004)
Company Filing History:
Years Active: 2000-2004
Title: Ryuji Komeda: Innovator in Optical Technologies
Introduction
Ryuji Komeda is a prominent inventor based in Kashihara, Japan. He has made significant contributions to the field of optical technologies, holding a total of 2 patents. His work focuses on advancements in optical modules and couplers, which are essential for modern communication systems.
Latest Patents
One of Ryuji Komeda's latest patents is an optical module designed for light path conversion. This invention is utilized in optical communications and information processing. The optical module features a surface light emitting element and a light path converting reflective body made from single-crystal silicon. This reflective body has an inclined face with a light-reflecting film, allowing for effective light path conversion.
Another notable patent is for an optical coupler and its production method. This optical coupler includes grooves for mounting optical fibers and a section for an optical element on a single crystal substrate. The design ensures that the base substrate has a coefficient of thermal expansion that closely matches that of the optical element, enhancing performance and reliability.
Career Highlights
Ryuji Komeda is associated with Kyocera Corporation, a leading company in the field of advanced ceramics and electronics. His work at Kyocera has allowed him to innovate and develop cutting-edge optical technologies that contribute to the company's success in the industry.
Collaborations
Throughout his career, Ryuji has collaborated with talented individuals such as Yuji Kishida and Yutaka Kuba. These collaborations have fostered a creative environment that has led to the development of innovative solutions in optical technology.
Conclusion
Ryuji Komeda's contributions to optical technologies through his patents and work at Kyocera Corporation highlight his role as a key innovator in the field. His inventions continue to impact the way optical communications and information processing are conducted today.