Company Filing History:
Years Active: 2004-2010
Title: Innovations by Ian Nelson in Gas Polarization Technology
Introduction
Ian Nelson is a notable inventor based in Chapel Hill, NC (US), recognized for his contributions to the field of gas polarization technology. With a total of five patents to his name, he has made significant advancements that enhance the understanding and measurement of polarized gases.
Latest Patents
Among his latest patents, Ian has developed methods, systems, circuits, and computer program products for determining the polarization of a gas. One of his key inventions is a circuit designed to determine the polarization of a gas, which includes a polarimetry circuit featuring an NMR coil. This coil is configured to excite a polarized gas and responds to an electromagnetic signal generated by the excited gas. The polarimetry circuit boasts a reproducible polarization measurement variability of less than 2% when exposed to temperatures ranging from 0°C to 200°C. Another significant patent involves a system for determining the polarization of a gas, which comprises a container holding the polarized gas and an oscillator circuit with an NMR coil positioned adjacent to the container. This system is designed to generate electrical pulses to excite the polarized gas, with a control processor determining the gas's polarization based on the output signal from a receive circuit.
Career Highlights
Ian Nelson has had a distinguished career, working with reputable organizations such as Medi-Physics, Inc. and Princeton University. His work in these institutions has allowed him to collaborate with other experts in the field and contribute to groundbreaking research.
Collaborations
Ian has worked alongside notable colleagues, including Zivko Djukic and Steve Kadlecek, further enhancing the collaborative nature of his innovative projects.
Conclusion
Ian Nelson's contributions to gas polarization technology through his patents and collaborations highlight his role as a significant inventor in this field. His work continues to influence advancements in the measurement and understanding of polarized gases.