Company Filing History:
Years Active: 2001
Title: Bruce T. Acker: Innovator in Semiconductor Technology
Introduction
Bruce T. Acker, based in Sunnyvale, California, is an accomplished inventor renowned for his contributions to semiconductor technology. With a strong commitment to innovation, he holds a patent that addresses crucial advancements in transistor design for ultra-large scale integration (ULSI) circuits.
Latest Patents
Acker's sole patent, titled "Ultra thin oxynitride and nitride/oxide stacked gate dielectrics fabricated by high pressure technology," presents a significant breakthrough in semiconductor manufacturing. This invention describes a method for creating a dense and stable dielectric layer of silicon nitride and silicon dioxide. The process involves forming a nitride layer on a silicon substrate's surface, followed by the deposition of a silicon dioxide layer underneath the nitride. This configuration reduces the diffusion of dopant ions such as boron from the doped polysilicon gate into the silicon dioxide, essential for maintaining the integrity of transistors as they are miniaturized.
Career Highlights
Bruce T. Acker is currently affiliated with Novellus Systems Incorporated, a leading company in semiconductor manufacturing equipment and technology. His innovative work, particularly in high-pressure processes, has paved the way for enhanced performance and efficiency in semiconductor devices as they evolve.
Collaborations
Throughout his career, Acker has collaborated with notable colleagues such as John A. Bloom and Dim-Lee Kwong. These partnerships have fostered a creative environment, encouraging advancements and the sharing of ideas that push the boundaries of semiconductor technology.
Conclusion
Bruce T. Acker's contributions to the field of semiconductor technology through his patent on ultra-thin dielectrics signify his role as an influential inventor. His innovative methods and collaboration with esteemed colleagues reflect a dedication to advancing technology, ultimately leading to improvements in ULSI circuits that will benefit the electronics industry for years to come.