Shigenori Yuhya

Introduction

Shigenori Yuhya, a distinguished inventor based in Hyogo, Japan, has made significant contributions to the field of superconductivity. With a total of two patents to his name, his work has had a profound impact on the development of advanced materials and technologies.

Latest Patents

One of his latest patents is centered around a "Method for Preparing an Oxide Superconducting Tape." This innovative method focuses on the growth of a superconductive film. The process involves depositing an oxide film on a metallic substrate using thermal plasma. A key feature of this method is the suppression of the reaction product between the metallic substrate and plasma, allowing for the deposition of a ceramic intermediate layer without a reaction phase. Ultimately, an intermediated buffer layer composed solely of oxide ceramic is created on the metal substrate, which guarantees a flat surface. The deposition occurs in an inert atmosphere with low oxygen concentration and at temperatures below 600°C. Following this, a superconducting thin film is applied atop the ceramic intermediate layer.

Career Highlights

Throughout his career, Shigenori Yuhya has worked with various organizations, notably the International Superconductivity Technology Center and Hokkaido Electric Power Company, Inc. His innovative approaches have furthered research and application in superconductive materials, allowing for practical advancements in technology.

Collaborations

Yuhya has collaborated with esteemed colleagues such as Noriyuki Tatsumi and Jiro Tsujino. This teamwork has facilitated the further exploration of superconductivity and its applications across various industries, enhancing the impact of their collective research.

Conclusion

Shigenori Yuhya's contributions to superconductivity through his inventive methods place him at the forefront of innovation in this field. His patents not only showcase his technological expertise but also signify the potential for future advancements in superconductive materials. As the demand for higher efficiency and performance in technology increases, Yuhya's work remains pivotal in addressing these needs.