Company Filing History:
Years Active: 2011
Title: Jan Michael Brosi: Innovator in Electro-Optical Waveguide Technology
Introduction
Jan Michael Brosi is a prominent inventor based in Karlsruhe, Germany. He is known for his innovative contributions to the field of electro-optical waveguide technology. His work focuses on enhancing the transmission properties of optical waveguides through the application of electric voltages and currents.
Latest Patents
Jan Michael Brosi holds a patent for an "Electrooptical high-index contrast waveguide component." This invention presents a high-index contrast waveguide component that utilizes the rapid changes in transmission properties of an optical waveguide when electric voltages are applied. The design features a high-refractive waveguide core surrounded by low-refractive surrounding material, which possesses electro-optical properties. By applying voltage to transparent electrodes, an electric field is generated that interacts with the optical mode, altering the waveguide's transmission properties. This technology enables the creation of fast electro-optical modulators with small switching voltages, which can be integrated with electronic components on a common semiconductor substrate, such as silicon.
Career Highlights
Jan Michael Brosi is affiliated with the Karlsruhe Institute of Technology, where he continues to advance research in optical technologies. His innovative work has led to significant advancements in the field, particularly in the development of components that enhance the performance of optical systems.
Collaborations
Throughout his career, Jan Michael Brosi has collaborated with notable colleagues, including Christian Koos and Jurg Leuthold. These collaborations have contributed to the advancement of research in electro-optical technologies.
Conclusion
Jan Michael Brosi's contributions to the field of electro-optical waveguide technology exemplify his innovative spirit and dedication to advancing optical systems. His patent for the electro-optical high-index contrast waveguide component showcases the potential for significant advancements in this area.