Company Filing History:
Years Active: 1988
Title: The Innovative Mind of John C. Fisher
Introduction
John C. Fisher, an accomplished inventor based in Carpinteria, California, has made significant contributions to the field of magnetic technology. With one patent to his name, Fisher's work demonstrates an innovative approach to enhancing nuclear magnetic resonance (NMR) applications through the employment of permanent magnets.
Latest Patents
Fisher's most notable patent is for a "Cylindrical NMR bias magnet apparatus employing permanent magnets." This invention presents a unique design that incorporates a plurality of insulating sleeves around a curvilinear structure, specifically a cylinder. Each sleeve contains stacks of permanent magnet material, intricately arranged to allow for the introduction of desired harmonics by varying the lengths of the slabs. This innovative method ensures efficient magnetic orientation, contributing to the advancement of NMR technology.
Career Highlights
Fisher's career is exemplified by his dedication to research and development in the field of magnetic resonance. His work at Field Effects emphasizes practical applications and technological advancements, particularly in improving NMR systems. Fisher’s contributions have the potential to benefit various industries, including medical imaging and materials science.
Collaborations
Throughout his career, Fisher has collaborated with notable coworkers such as Ronald F. Holsinger and Robert L. Gluckstern. These partnerships have fostered an environment of innovation and creativity, allowing Fisher to enhance his patent and explore new avenues for future inventions.
Conclusion
John C. Fisher's inventive spirit and technical expertise have led to groundbreaking developments in the realm of magnetic technology. His unique approach to NMR bias magnet apparatuses signifies the importance of innovation in advancing scientific research. With his current role at Field Effects, Fisher continues to push the boundaries of what is possible in this dynamic field.