Company Filing History:
Years Active: 2002
Title: **Innovative Contributions of James W. Liang in Magnetic Recording Technologies**
Introduction
James W. Liang is a notable inventor based in Hsinchu, Taiwan, recognized for his significant contribution to the field of magnetic recording media. With one patent to his name, Liang's work focuses on reducing noise in magnetic recording technologies, which is essential for improving data fidelity in various applications.
Latest Patents
James W. Liang holds a patent for a low noise magnetic recording medium that features a nonmagnetic interlayer film. This innovative medium consists of a nonmagnetic interlayer placed between a chromium-based underlayer and a cobalt magnetic layer. The nonmagnetic interlayer comprises a blend of materials designed to fine-tune the interface between the layers to achieve superior performance. Specifically, the materials within the interlayer are selected to address lattice mismatch issues, enabling the construction of a texture layer or even an epitaxial layer, which enhances the overall recording quality. The precise composition ratios of the materials in the interlayer, along with the thickness ranging from 0.5 to 20 nm, are crucial in preventing grain growth and optimizing recording characteristics.
Career Highlights
Currently, James W. Liang is associated with Trace Storage Technology Corporation, a company that focuses on innovative storage solutions. His role involves pioneering advancements in magnetic recording technologies that have wide-ranging implications for data storage applications. His expertise and dedication to developing effective recording media have significant potential for enhancing storage devices’ performance.
Collaborations
James collaborates with talented professionals in the field, including his coworkers Jack Chang and Gina Liang. Together, they contribute to ongoing research and development initiatives aimed at pushing the boundaries of current magnetic recording technologies.
Conclusion
James W. Liang's work exemplifies innovation in the realm of magnetic recording media, showcasing how targeted material engineering can lead to groundbreaking advances in data storage technology. His contributions are not only pivotal for his company but also play a crucial role in the ongoing evolution of recording technologies in an increasingly data-driven world.