Xiaolu Kou

Title: Innovations of Xiaolu Kou in Near-Field Transducer Technology

Introduction

Xiaolu Kou is a notable inventor based in Los Gatos, California, recognized for his contributions to the field of near-field transducer technology. With a total of three patents to his name, Kou has made significant advancements that enhance the functionality of recording head subassemblies.

Latest Patents

Kou's latest patents include innovative methods for forming single-grain near-field transducers. One patent describes a process that involves forming a metal layer on a metal seed layer, which is placed on a carrier wafer. The surface of this metal layer defines a first metal bonding layer, while a second metal bonding layer is provided on a target substrate containing recording head subassemblies. The method activates the mating surfaces of both bonding layers, allowing the carrier wafer to be flipped and joined with the target substrate, thus integrating the metal layer with the recording head as a near-field transducer. Another patent outlines a similar process, focusing on forming a single-crystal-like metal layer on a metal seed layer. This method also includes the formation of bonding layers on both the metal layer and a dielectric layer of the target substrate, ensuring the integration of the single-crystal-like metal layer with the recording head.

Career Highlights

Xiaolu Kou is currently employed at Seagate Technology Incorporated, where he continues to innovate in the field of data storage technology. His work has been instrumental in developing advanced transducer technologies that improve data recording and retrieval processes.

Collaborations

Kou collaborates with talented professionals in his field, including Michael C Kautzky and Tong Zhao, who contribute to the innovative projects at Seagate Technology.

Conclusion

Xiaolu Kou's work in near-field transducer technology exemplifies the impact of innovative thinking in the tech industry. His patents not only advance the capabilities of recording technologies but also highlight the importance of collaboration in driving technological progress.