Company Filing History:
Years Active: 2000
Title: The Innovations of Clarence E. Payton
Introduction
Clarence E. Payton is a notable inventor based in Chagrin Falls, Ohio. He has made significant contributions to the field of superconducting magnetic imaging technology. His innovative work has led to the development of a unique patent that enhances imaging capabilities.
Latest Patents
One of Clarence E. Payton's key patents is titled "Self-shielded gradient coil assembly and method of manufacturing the same." This patent describes a superconducting magnetic imaging apparatus that includes a vacuum vessel with a central helium reservoir. The superconducting magnetic coil windings are maintained at a superconducting temperature within this vessel. The design features a self-shielded gradient coil assembly that incorporates a single former, defining an imaging region where a subject can be imaged. The assembly includes primary x, y, and z-gradient coils positioned over an RF ground screen, with comb-like spacers extending to support additional gradient coils. This innovative design allows for efficient cooling and enhances the overall performance of the imaging apparatus.
Career Highlights
Clarence E. Payton has worked at Picker International, Inc., where he has applied his expertise in superconducting technologies. His work has been instrumental in advancing the capabilities of magnetic imaging systems. With a patent portfolio that includes 1 patent, he has established himself as a key figure in his field.
Collaborations
Throughout his career, Clarence has collaborated with talented individuals such as Labros S. Petropoulos and Michael Andrew Morich. These collaborations have contributed to the development of innovative technologies in the imaging sector.
Conclusion
Clarence E. Payton's contributions to superconducting magnetic imaging technology highlight his innovative spirit and dedication to advancing the field. His patent on the self-shielded gradient coil assembly showcases his ability to create solutions that enhance imaging capabilities.