Company Filing History:
Years Active: 1992
Title: Innovations of Manjanath S Hegde in Superconducting Devices
Introduction
Manjanath S Hegde is a notable inventor based in Bengaluru, India. He has made significant contributions to the field of superconducting devices, showcasing his expertise through innovative patents. His work focuses on enhancing the performance and efficiency of superconducting materials.
Latest Patents
One of his key patents is titled "Layered lattice-matched superconducting device and method of making." This invention involves a superconducting YBaCuO layer that is laser deposited on a SrTiO.sub.3 or similar substrate. The unique aspect of this method is that the c-axis of the YBaCuO layer is vertically aligned with that of the substrate. Additionally, a non-superconducting layer of PrBaCuO or MgO is laser deposited on the superconducting layer. Another superconducting YBaCuO layer is then deposited on the non-superconducting layer, ensuring that the c-axes of all layers are aligned. Contacts are applied to the two superconducting layers to form a junction device across the non-superconducting layer, which acts as a barrier layer. This innovative approach has the potential to advance the field of superconductivity.
Career Highlights
Manjanath S Hegde is currently associated with Bell Communications Research, Inc. His work at this organization has allowed him to explore and develop groundbreaking technologies in superconducting devices. His dedication to research and innovation has positioned him as a key figure in his field.
Collaborations
Throughout his career, Manjanath has collaborated with esteemed colleagues such as Arun Inam and Charles T Rogers, Jr. These collaborations have further enriched his research and contributed to the advancement of superconducting technologies.
Conclusion
Manjanath S Hegde's contributions to the field of superconducting devices are noteworthy. His innovative patent and collaborative efforts highlight his commitment to advancing technology in this area. His work continues to inspire future innovations in superconductivity.