Company Filing History:
1 out of 832,812 Years Active: 2007
Title: Innovative Advancements of Andreas Heinz Trabesinger in NMR and MRI Technologies
Introduction
Andreas Heinz Trabesinger is an accomplished inventor based in Zurich, Switzerland, with a significant contribution to the field of nuclear magnetic resonance (NMR) and magnetic resonance imaging (MRI). His work on detecting NMR signals in ultralow magnetic fields has the potential to revolutionize imaging technologies.
Latest Patents
Trabesinger holds a notable patent for "Squid Detected NMR and MRI at Ultrawlow Fields." This innovative approach involves detecting NMR signals in microtesla fields, utilizing prepolarization in millitesla fields, followed by detection with a dc superconducting quantum interference device (SQUID) magnetometer. The crucial advantage of this method is the sensitivity of the SQUID, which is frequency independent, thereby enhancing both the signal-to-noise ratio (SNR) and spectral resolution. By detecting NMR signals in extremely low magnetic fields, the NMR lines can become very narrow even in drastically inhomogeneous measurement fields. Additionally, his techniques enable MRI in ultralow magnetic fields, applying gradient magnetic fields to construct images from detected NMR signals.
Career Highlights
Trabesinger's career in the field of innovation is marked by his profound understanding of magnetic resonance technologies. His work has led to enhanced imaging capabilities which could have far-reaching implications across various medical and research applications.
Collaborations
He has collaborated with esteemed colleagues in the field, including John G Clarke and Robert Francis McDermott. These partnerships have furthered the research and development of advanced techniques in NMR and MRI, facilitating valuable advancements in their shared expertise.
Conclusion
Andreas Heinz Trabesinger's contributions to the field of NMR and MRI represent a significant leap forward in imaging technology. His innovative approach, particularly in ultralow magnetic fields, is poised to enhance both scientific research and medical diagnostics, reflecting the transformative potential of his work in the field of inventiveness.