Company Filing History:
Years Active: 2007-2010
Title: Innovations of Atsushi Yamada
Introduction
Atsushi Yamada is a notable inventor based in Hachioji, Japan. He has made significant contributions to the field of optical measurement technology. With a total of 2 patents, his work focuses on advancing methods and apparatuses for optical power measurement.
Latest Patents
Atsushi Yamada's latest patents include an "Optical Rotating Power Measurement Method" and an "Optical Rotating Power Measurement Apparatus." The optical rotating power measurement method involves a data acquisition step that starts measuring the optical rotating power of a sample during a temperature-changing process. This method allows for the collection of temperature and optical rotating power data over time. The data processing step establishes a straight-line relationship between the temperature and optical rotating power data, enabling the determination of the optical rotating power at a predetermined temperature.
His second patent, the "Near Field Analysis Apparatus," features an irradiation optical system and a light-collecting optical system. This apparatus includes adjustable optical systems for both the irradiation and light-collection sides, allowing for precise adjustments to the optical axis. The design ensures that the spots of the guide light observed at the adjustment surface match, enhancing the accuracy of near-field analysis.
Career Highlights
Atsushi Yamada is currently employed at Jasco Corporation, where he continues to innovate in optical measurement technologies. His work has contributed to the advancement of measurement techniques that are crucial in various scientific and industrial applications.
Collaborations
He collaborates with talented coworkers, including Hisashi Masago and Tomoyuki Fukazawa, who contribute to the innovative environment at Jasco Corporation.
Conclusion
Atsushi Yamada's contributions to optical measurement technology through his patents reflect his dedication to innovation. His work not only enhances measurement techniques but also paves the way for future advancements in the field.