Company Filing History:
Years Active: 2006-2010
Title: Jo De Boeck: Innovator in Magnetic Devices
Introduction
Jo De Boeck is a notable inventor based in St. Katelijne Waver, Belgium. He has made significant contributions to the field of magnetic devices, holding a total of 2 patents. His work focuses on improving the properties of magnetic devices, which has implications for various technological applications.
Latest Patents
One of Jo De Boeck's latest patents is titled "Magnetic device and method of making the same." This invention presents a method and magnetic device aimed at enhancing desirable properties such as magnetization uniformity and reproducibility. The invention introduces magnetic cells that exhibit greater magnetic homogeneity, reducing the amount of end domain magnetization canting from the average cell magnetization direction. This advancement may lead to magnetic memory cells with less variation in switching fields, as well as more spatially coherent dynamical magnetic properties for high-speed and coherent magnetic switching. Additionally, it promises higher signal strength due to increased uniformity. The invention also has applications in magnetic sensors and read head elements, providing improved spatial coherence for high-speed sensing and increased signal output.
Career Highlights
Throughout his career, Jo De Boeck has worked with prominent organizations such as Imec and the Interuniversitair Microelektronica Centrum (imec). His experience in these institutions has allowed him to collaborate on cutting-edge research and development in microelectronics and magnetic technologies.
Collaborations
Jo De Boeck has collaborated with notable colleagues, including Wayne Hiebert and Liesbet Lagae. These partnerships have contributed to the advancement of his research and the successful development of his inventions.
Conclusion
Jo De Boeck's innovative work in magnetic devices showcases his commitment to enhancing technology through improved magnetic properties. His patents reflect a deep understanding of the complexities involved in magnetic device design and application.