Hans-Benjamin Braun

Title: Innovations of Hans-Benjamin Braun

Introduction

Hans-Benjamin Braun is a notable inventor based in Winterthur, Switzerland. He has made significant contributions to the field of nanotechnology, particularly in the study of magnetic structures. With a total of 3 patents, his work focuses on controlling magnetic states and chirality in nanoscale systems.

Latest Patents

One of his latest patents is titled "Method of controlling the states and vortex chirality in hexagonal ring structures comprising nanoscale magnetic elements." This method provides a way to achieve specific magnetic states with a defined vortex chirality in artificial kagome spin ice structures. The invention utilizes electron beam lithography to create ferromagnetic islands of varying widths, which are strategically positioned to influence the magnetic state during magnetization reversal.

Another significant patent is "Method of studying chirality controlled artificial kagome spin ice building blocks." This method aims to achieve low energy states for studying chirality in kagome spin ice structures. It involves a series of steps, including the use of a silicon substrate and spin coating a polymethyl acrylate resist. The positioning of thin ferromagnetic island structures along a honeycomb lattice is crucial for controlling chirality.

Career Highlights

Hans-Benjamin Braun is affiliated with the Paul Scherrer Institute, where he conducts his research. His work has garnered attention in the scientific community for its innovative approach to magnetic materials and their applications.

Collaborations

He collaborates with esteemed colleagues, including Laura Heyderman and Elena Mengotti, who contribute to his research endeavors.

Conclusion

Hans-Benjamin Braun's innovative work in the field of nanotechnology and magnetism showcases his expertise and dedication to advancing scientific knowledge. His patents reflect a commitment to exploring new frontiers in magnetic materials and their applications.