Location History:
- Chichibu, JP (2017 - 2020)
- Chickibu, JP (2024)
Company Filing History:
Years Active: 2017-2024
Title: Akira Miyasaka: Innovator in Semiconductor Technology
Introduction
Akira Miyasaka is a distinguished inventor based in Chichibu, Japan, recognized for his contributions to semiconductor technology. With a remarkable portfolio of 6 patents, his work has significantly influenced the methods of evaluating and manufacturing semiconductor wafers.
Latest Patents
Miyasaka's latest innovations include a semiconductor wafer evaluation apparatus and a semiconductor wafer manufacturing method. The semiconductor wafer evaluation apparatus employs a contact maker, using mercury liquefied at room temperature as a Schottky electrode. This device intermittently applies voltage from a pulse power supply to evaluate the state and density of point defects on large-diameter semiconductor wafers, making direct assessments more feasible. Moreover, his SiC epitaxial wafer patent involves a SiC epitaxial layer formed on a single crystal substrate, detailing a new method for its manufacturing and highlighting a unique trapezoidal defect in the structure.
Career Highlights
Akira Miyasaka has built an impressive career at Showa Denko K.K., where he has not only advanced the field of semiconductor technology but also contributed to various pioneering projects. His patents reflect a deep commitment to enhancing the quality and reliability of semiconductor materials.
Collaborations
Throughout his career, Miyasaka has collaborated with prominent colleagues, including Daisuke Muto and the accomplished inventor Yoshiaki Kageshima. These partnerships have fostered innovative ideas and led to the successful development of various technologies in the semiconductor sector.
Conclusion
In summary, Akira Miyasaka stands out as an innovative figure in semiconductor technology. His numerous patents and collaborative efforts mark significant advances in the field, contributing to the ongoing evolution of semiconductor manufacturing and evaluation methods. As technology continues to advance, Miyasaka's work will undoubtedly continue to influence future innovations.