Jörg Raabe

Title: Jörg Raabe: Innovator in Magnetic Storage and Laser Interferometry

Introduction

Jörg Raabe is a prominent inventor based in Villnachern, Switzerland. He has made significant contributions to the fields of magnetic storage and laser interferometry. With a total of 2 patents, Raabe's work focuses on enhancing the efficiency and accuracy of data readout and measurement technologies.

Latest Patents

Raabe's latest patents include a method for speeding up magnetic signal readout from magnetic storage media by beam splitting. This innovative method utilizes contactless circularly polarized X-rays to increase the readout speed of information encoded on magnetic storage media. By employing first and second circularly polarized X-ray beams, the method allows for real-time, high-fidelity readout of magnetic information stored on tapes or disk drives.

Another notable patent is a tracking type laser interferometer designed for objects with rotational degrees of freedom. This laser interferometer performs differential position measurements while allowing one of the elements to have a rotational degree of freedom. The use of a reflecting sphere as a mirror for the laser beam enables the interferometer to track objects in off-centered geometries without requiring alignment with the rotation axis.

Career Highlights

Jörg Raabe is affiliated with the Paul Scherrer Institute, where he continues to advance research in his areas of expertise. His innovative approaches have positioned him as a key figure in the development of new technologies that enhance data storage and measurement accuracy.

Collaborations

Raabe has collaborated with notable colleagues, including Mirko Holler and Sebastian Gliga, contributing to a dynamic research environment that fosters innovation and technological advancement.

Conclusion

Jörg Raabe's contributions to the fields of magnetic storage and laser interferometry exemplify the impact of innovative thinking in technology. His patents reflect a commitment to improving data readout and measurement techniques, making significant strides in these critical areas.