Location History:
- Zurich, CH (2021)
- Altendorf, CH (2024)
Company Filing History:
Years Active: 2021-2024
Title: The Innovative Contributions of Svenja Mauthe
Introduction
Svenja Mauthe is a prominent inventor based in Zurich, Switzerland. She has made significant contributions to the field of semiconductor devices and plasmonic lasers. With a total of four patents to her name, Mauthe's work showcases her expertise and innovative spirit.
Latest Patents
One of her latest patents involves the fabrication of a semiconductor device that includes a quantum dot structure. This invention relates to a method for creating a semiconductor device by providing a cavity structure with a seed area containing seed material. The method includes growing a quantum dot structure within the cavity and subsequently embedding layers in different growth directions. This innovative approach allows for the development of advanced semiconductor devices.
Another notable patent is for a plasmonic laser. This invention features a substrate with a coaxial plasmonic cavity designed to facilitate a plasmonic mode. The plasmonic laser includes an electrical pumping circuit that is configured to pump the laser through a peripheral plasmonic ring structure and a central plasmonic core. The gain structure of the laser incorporates ring-shaped quantum wells, enhancing its performance and efficiency.
Career Highlights
Svenja Mauthe is currently employed at International Business Machines Corporation, commonly known as IBM. Her role at IBM allows her to further her research and development in cutting-edge technologies. Mauthe's work has positioned her as a key player in the field of semiconductor and laser technology.
Collaborations
Throughout her career, Mauthe has collaborated with talented individuals such as Kirsten Emilie Moselund and Noelia Vico Trivino. These collaborations have contributed to her innovative projects and have fostered a creative environment for technological advancements.
Conclusion
Svenja Mauthe's contributions to the fields of semiconductor devices and plasmonic lasers highlight her innovative capabilities and dedication to advancing technology. Her patents reflect her commitment to pushing the boundaries of what is possible in her field.