Company Filing History:
Years Active: 2013-2018
Title: Kodo Kawase: Innovator in Terahertz Wave Technology
Introduction
Kodo Kawase is a prominent inventor based in Aichi, Japan, known for his significant contributions to terahertz wave technology. With a total of three patents to his name, Kawase has made strides in the field of electromagnetic wave measurement and generation.
Latest Patents
One of his latest patents is a terahertz wave generation apparatus. This apparatus utilizes a first non-linear optical crystal where two lasers are incident to generate terahertz waves. The laser generation means includes a second non-linear optical crystal that generates idler light with multiple wavelengths. This innovative design allows for the generation of terahertz waves with high output power and specific wavelengths, enhancing the capabilities of terahertz technology.
Another notable patent is an electromagnetic wave measuring apparatus, which includes an electromagnetic wave outputter that operates within a frequency range of 0.01 THz to 100 THz. This device is designed to measure the characteristics of electromagnetic waves as they pass through a device under test. The apparatus features a relative position changer that adjusts the intersection of the optical path, ensuring accurate measurements based on the refraction of the electromagnetic wave.
Career Highlights
Kawase has worked with notable companies such as Advantest Corporation and Shibuya Corporation, where he has applied his expertise in developing advanced technologies. His work has significantly impacted the field of electromagnetic wave measurement and generation.
Collaborations
Kawase has collaborated with esteemed colleagues, including Shigeki Nishina and Motoki Imamura, contributing to various projects that push the boundaries of terahertz technology.
Conclusion
Kodo Kawase's innovative work in terahertz wave technology and electromagnetic wave measurement has established him as a key figure in his field. His patents reflect a commitment to advancing technology and improving measurement techniques.