Company Filing History:
Years Active: 1987-1988
Title: Wolfgang Haenicke: Innovator in Magnetic Resonance Imaging
Introduction
Wolfgang Haenicke is a prominent inventor based in Goettingen, Germany. He has made significant contributions to the field of magnetic resonance imaging, holding 2 patents that showcase his innovative approaches to this technology.
Latest Patents
Haenicke's latest patents include an "Imaging Magnetic Spin Resonance Method and Apparatus." This invention describes a method and apparatus for a locally resolved investigation of a specimen. The specimen is exposed to a constant magnetic field and a variable combination of three gradient magnetic fields directed substantially perpendicularly to each other. It also involves a sequence of high-frequency (RF) pulses that contain three successive pulses with specific flip angles. The signals corresponding to the magnetic resonance of spin moments, particularly nuclear spin moments, in the specimen are detected.
Another notable patent is the "Method of Rapid Acquisition of Spin Resonance Data for a Spatially Resolved Investigation." This patent describes a fast low angle shot ('FLASH') NMR method that utilizes radio frequency excitation pulses with a flip angle significantly less than 90 degrees. The method allows for the production of gradient echo signals without any intervening delay for magnetization restoration or recovery.
Career Highlights
Wolfgang Haenicke is associated with the Max Planck Society for the Advancement of Science, where he continues to contribute to research and development in his field. His work has been instrumental in advancing the capabilities of magnetic resonance imaging technologies.
Collaborations
Haenicke has collaborated with notable colleagues such as Jens Frahm and Axel Haase, further enhancing the impact of his research through teamwork and shared expertise.
Conclusion
Wolfgang Haenicke's innovative work in magnetic resonance imaging has led to significant advancements in the field. His patents reflect a deep understanding of the complexities involved in imaging technologies, making him a key figure in this area of research.