Company Filing History:
Years Active: 2004
Title: Innovations by Lois Wride in Semiconductor Processing
Introduction
Lois Wride is an inventive mind based in Valley View, Australia, known for her significant contributions to the semiconductor industry. With a focus on enhancing production efficiency, her innovations have paved the way for advancements in semiconductor processing.
Latest Patents
Wride holds a patent titled "Method and system for rotating a semiconductor wafer in processing chambers." This invention is primarily directed towards a system and process that improves the rotation of semiconductor wafers in thermal processing environments, including rapid thermal processing and chemical vapor deposition chambers. The innovative method involves supporting a semiconductor wafer on a substrate holder, which is in turn placed upon a rotor. Notably, the rotor is magnetically levitated and rotated through actuators positioned outside the processing chamber, allowing for enhanced precision and efficiency during semiconductor manufacturing.
Career Highlights
Wride's professional journey has led her to work at Mattson Technology, Inc., a renowned company specializing in semiconductor equipment. Throughout her career, she has remained dedicated to pushing the boundaries of technology and engineering in the field, constantly seeking ways to improve existing processes.
Collaborations
In her role at Mattson Technology, Wride has collaborated with notable colleagues, including Zion Koren and Yorkman Ma. This teamwork has not only enriched her professional experiences but has also contributed significantly to the development of innovative solutions within the company.
Conclusion
Lois Wride’s role as a pioneer in semiconductor processing exemplifies the impact of innovation in the industry. Her patented technology represents a leap forward in the efficiency of wafer processing, showcasing the importance of contributions made by inventors like herself. As the semiconductor industry continues to evolve, Wride's work will likely play a critical role in shaping its future.