Company Filing History:
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Years Active: 1995-2007
Title: Masashi Yasuda: Innovator in Nuclear Magnetic Resonance Technology
Introduction
Masashi Yasuda is a prominent inventor based in Amagasaki, Japan. He has made significant contributions to the field of nuclear magnetic resonance technology, holding a total of six patents. His work focuses on enhancing the functionality and reliability of nuclear magnetic resonance devices.
Latest Patents
One of Yasuda's latest patents is a nuclear magnetic resonance device designed to elucidate atomic configuration and molecular structure of substances. This apparatus utilizes a decay signal of induced electromotive force, which is caused by the resonance precession of nuclear magnetic moments when exposed to electromagnetic pulses in an RF region. The device is equipped with a vibration isolation mechanism that employs an air spring connected to a pressurized air source. This mechanism actively suppresses vibrations, ensuring that the nuclear magnetic resonance device operates without malfunctions due to the magnetic field it generates. Another notable patent involves a vibration control unit that features a rolling element with curved surfaces, allowing for effective vibration management between two members.
Career Highlights
Throughout his career, Yasuda has worked with various companies, including Tokkyokiki Corporation. His innovative approaches have led to advancements in the technology surrounding nuclear magnetic resonance, making significant impacts in research and industrial applications.
Collaborations
Yasuda has collaborated with notable individuals in his field, including Fumiaki Itojima and Masaki Tsuchiya. These partnerships have contributed to the development of his patented technologies and have fostered a collaborative environment for innovation.
Conclusion
Masashi Yasuda's contributions to nuclear magnetic resonance technology exemplify his dedication to innovation and excellence. His patents reflect a deep understanding of the complexities involved in this field, and his work continues to influence advancements in scientific research and applications.