Company Filing History:
Years Active: 2007
Title: Graham Craigie: Innovator in Magnetic Resonance Measurement
Introduction
Graham Craigie is a notable inventor based in Wheatley, GB. He has made significant contributions to the field of magnetic resonance measurement, particularly in the context of production line applications. His innovative approach has led to the development of a unique patent that addresses critical challenges in measuring the mass of samples.
Latest Patents
Graham Craigie holds a patent for a "Magnetic resonance measuring system determining the mass of samples in a production line with monitored drift compensation." This patent outlines methods for determining the mass of samples using magnetic resonance measurement techniques. The system ensures magnetic field homogeneity and compensates for potential drifts, while also identifying the presence of metal in the samples. The methods involve applying a magnetic field in a specific direction to create net magnetization within the sample, followed by the application of an alternating magnetic field to temporarily alter this magnetization. The emitted energy from the sample is monitored as it returns to its original state, generating an output signal that is proportional to the energy emitted. This output signal is then compared with other data for accurate measurement.
Career Highlights
Graham Craigie is associated with The BOC Group, Inc., where he applies his expertise in magnetic resonance technology. His work has been instrumental in advancing measurement techniques that enhance production line efficiency and accuracy.
Collaborations
Graham has collaborated with esteemed colleagues such as Jozef A W M Corver and Paulus C J M Hendrickx. These collaborations have fostered innovation and contributed to the development of advanced measurement systems.
Conclusion
Graham Craigie's contributions to magnetic resonance measurement exemplify the impact of innovative thinking in industrial applications. His patent and collaborative efforts continue to influence the field, showcasing the importance of precision in production processes.