Company Filing History:
Years Active: 2008
Title: Paul John McGuiness: Innovator in Magnetic Measurement Technology
Introduction
Paul John McGuiness is a notable inventor based in Ljubljana, Slovenia. He has made significant contributions to the field of magnetic measurement technology. His innovative approach has led to the development of a unique tool that enhances the understanding of magnetic properties at high temperatures.
Latest Patents
McGuiness holds a patent for a "Tool for measuring magnetic properties at high temperatures." This invention relates to a measuring tool designed for assessing the magnetic properties of a magnetic sample within a closed loop. The tool features an electromagnet arranged in a closed loop with two pole pieces connected to a yoke. These pole pieces create a gap for placing the sample, while a search coil measures the flux density B of the sample. Additionally, a magnetic field sensor measures the magnetic field strength H in the gap between the pole pieces. The pole pieces are equipped with heater elements that can heat them to temperatures of at least 400°C and are thermally insulated from the yoke of the electromagnet. The materials used for the pole pieces, search coil, and magnetic field sensor are designed to withstand high temperatures. This measuring tool allows for the non-destructive measurement of magnetic properties of samples in a closed circle up to 500°C.
Career Highlights
Paul John McGuiness is affiliated with the Institute Jozef Stefan, where he continues to advance research in magnetic measurement technologies. His work has been instrumental in providing insights into the behavior of magnetic materials under extreme conditions.
Collaborations
Some of his notable coworkers include Gregor Gersak and Spomenke Kobe, who have collaborated with him on various research projects.
Conclusion
Paul John McGuiness is a pioneering inventor whose work in magnetic measurement technology has opened new avenues for research and application. His patented tool represents a significant advancement in the field, allowing for precise measurements at high temperatures.