Michael Wagenknecht

Title: Michael Wagenknecht: Innovator in Superconducting Magnet Technology

Introduction

Michael Wagenknecht is a prominent inventor based in Zurich, Switzerland. He has made significant contributions to the field of superconducting magnet technology, holding a total of 2 patents. His work focuses on enhancing the performance and efficiency of magnetic resonance installations.

Latest Patents

Wagenknecht's latest patents include a "Magnet arrangement with field-shaping element for reducing the radial field component in the region of an HTS section." This invention features a superconducting magnet coil arrangement that utilizes a high-temperature superconductor (HTS) coil section in the form of a solenoid. The design incorporates field-shaping devices that effectively reduce the field angle of the magnetic field generated by the magnet coil arrangement. Another notable patent is the "Magnet and cryostat arrangement, and method for passive shimming." This arrangement is designed to set the spatial profile of a magnetic field in a working volume of a main field magnet, particularly in superconducting main field magnets. The method allows for stable field homogenization using a passive shim apparatus, which can be introduced or removed from the cold region of the cryostat without the need for ventilation.

Career Highlights

Michael Wagenknecht is currently employed at Bruker Biospin GmbH, where he continues to innovate in the field of superconducting magnets. His work has been instrumental in advancing technologies that are crucial for magnetic resonance imaging and other applications.

Collaborations

Wagenknecht collaborates with notable colleagues such as Patrick Wikus and Volker Niemann, contributing to a dynamic team focused on cutting-edge research and development in superconducting technologies.

Conclusion

Michael Wagenknecht's contributions to superconducting magnet technology are noteworthy, and his patents reflect his commitment to innovation in this critical field. His work continues to influence advancements in magnetic resonance installations and related technologies.