Company Filing History:
Years Active: 2006
Title: Tomomitsu Kurimoto: Innovator in Magnetic Resonance Technology
Introduction
Tomomitsu Kurimoto is a distinguished inventor based in Tokyo, Japan. He has made significant contributions to the field of magnetic resonance technology, holding 2 patents that showcase his innovative approaches. His work is characterized by a deep understanding of the theoretical relationships within magnetic resonance spectra.
Latest Patents
Kurimoto's latest patents include a "Method of quantifying magnetic resonance spectrum" and a "Method of optimizing NMR measurement condition." The first patent offers a technique capable of quantifying all peaks of a magnetic resonance spectrum without the need for phase correction. This method involves quadrature detection to find the spectra of the real and imaginary parts, followed by calculating the integral intensity of a spectral peak. The second patent presents a method for determining the optimal measurement conditions in NMR. It involves collecting measurement data while varying conditions, extracting numerical values, and fitting a model equation to create a reliable curve for optimization.
Career Highlights
Tomomitsu Kurimoto is currently employed at Jeol Ltd., a company renowned for its advancements in scientific instruments and technology. His work at Jeol Ltd. has allowed him to apply his innovative methods in practical settings, contributing to the company's reputation in the field of magnetic resonance.
Collaborations
Throughout his career, Kurimoto has collaborated with notable colleagues, including Nobuaki Nemoto and Katsuo Asakura. These collaborations have fostered a productive environment for innovation and have led to advancements in their shared field of expertise.
Conclusion
Tomomitsu Kurimoto's contributions to magnetic resonance technology through his patents and work at Jeol Ltd. highlight his role as a key innovator in the field. His methods not only enhance the understanding of magnetic resonance spectra but also improve measurement conditions, showcasing the impact of his work on scientific research and applications.