Company Filing History:
2 out of 29 
1 out of 416 
1 out of 3 Years Active: 1980-1987
Title: Kunio Tanaka: Innovator in Nuclear Magnetic Resonance Imaging
Introduction
Kunio Tanaka is a notable inventor based in Asahikawa, Japan. He has made significant contributions to the field of nuclear magnetic resonance (NMR) imaging, holding a total of four patents. His innovative methods have advanced the capabilities of imaging techniques, providing valuable insights in various applications.
Latest Patents
Tanaka's latest patents include a method for imaging nuclear magnetic resonance signals. This method involves encoding the phase of nuclear magnetization in a target placed in a homogeneous magnetic field, which is excited by a high-frequency magnetic field. By applying a specifying magnetic field with a non-linear gradient and scanning it across the target, the encoded NMR signals are received and processed to produce an image of the distribution of nuclear magnetic substances in the target. Another significant patent is the method of scanning a specifying magnetic field for nuclear magnetic resonance imaging. This method comprises generating the specifying magnetic field through the synthesis of a static magnetic field and a magnetic field produced by a group of magnetomotive forces. The center of the specifying magnetic field is moved by superposing a scanning magnetic field from a scanner coil in a specific direction.
Career Highlights
Throughout his career, Kunio Tanaka has worked at prestigious institutions such as Utsunomiya University and Hokkaido University. His work has been instrumental in enhancing the understanding and application of nuclear magnetic resonance technology.
Collaborations
Tanaka has collaborated with notable colleagues, including Zenwemon Abe and Yoshifumi Yamada. These collaborations have contributed to the advancement of research in the field of NMR imaging.
Conclusion
Kunio Tanaka's innovative work in nuclear magnetic resonance imaging has significantly impacted the field. His patents and collaborations reflect his dedication to advancing technology and improving imaging techniques.