Company Filing History:
Years Active: 2008-2017
Title: Miwa Okubo: Innovator in Optical Technology
Introduction
Miwa Okubo is a prominent inventor based in Kanagawa, Japan. She has made significant contributions to the field of optical technology, holding a total of 6 patents. Her work focuses on developing advanced optical modules and waveguides that enhance the efficiency and performance of optical systems.
Latest Patents
One of her latest patents is an optical module that features at least two optical elements mounted in parallel. This module includes a first electrode pad grounded to a ground potential, positioned between the optical elements, and a second electrode pad that intersects with the arrangement of the optical elements. Additionally, it incorporates a conductive shield member connected to both electrode pads, strategically placed between the electrical signal transmission paths linked to the optical elements.
Another notable patent is for an optical module that includes an optical waveguide with multiple waveguide cores for light propagation. This design features a clad that traps light within the waveguide cores, alongside parallel fiber guide grooves for optical fibers. The grooves are equipped with support projections to align and couple the optical fibers with the waveguide cores, ensuring optimal performance.
Career Highlights
Miwa Okubo is currently employed at Sony Corporation, where she continues to innovate in the field of optical technology. Her work has been instrumental in advancing the capabilities of optical systems, making her a valuable asset to her company and the industry.
Collaborations
Throughout her career, Miwa has collaborated with notable colleagues, including Hidehiko Nakata and Takahiro Arakida. These collaborations have fostered a creative environment that encourages the development of cutting-edge optical technologies.
Conclusion
Miwa Okubo's contributions to optical technology through her patents and work at Sony Corporation highlight her role as a leading inventor in her field. Her innovative designs and collaborative efforts continue to push the boundaries of what is possible in optical systems.