Company Filing History:
Years Active: 2006
Title: The Innovations of James Sternbergh: A Pioneer in Optical Monitoring Technology
Introduction
James Sternbergh, an inventive mind based in Healdsburg, California, is known for his significant contributions to the field of optical monitoring in deposition processes. With a sole patent to his name, he has made strides in enhancing the efficiency and accuracy of thin film applications.
Latest Patents
Sternbergh's patent, titled "Method and apparatus for monitoring optical characteristics of thin films in a deposition process," addresses the need for precise optical monitoring during the coating of substrates. This innovative approach utilizes a retroreflector to redirect an electromagnetic beam that is transmitted through the substrate and coating. By measuring the properties of the retroreflected beam, the system capitalizes on improved signal-to-noise ratios, which is crucial for high-quality coatings. This invention serves various applications, especially in deposition processes where substrates are continuously advanced past material sources.
Career Highlights
Working at Deposition Sciences Incorporated, James Sternbergh has played a pivotal role in advancing thin film technology through his innovative methods. His expertise has led to improved processes that affect numerous industries reliant on precision coatings.
Collaborations
In his professional journey, Sternbergh has collaborated with esteemed colleagues such as Eric Krisl and Norm L Boling. Together, they have contributed valuable insights that enhance the functionality and effectiveness of deposition methods, pushing the boundaries of current technology.
Conclusion
James Sternbergh's work exemplifies innovation in the realm of optical characteristics monitoring for deposition processes. His patented approach not only promotes enhanced quality control in coatings but also sets a standard for future advancements in the industry. As he continues to develop new methodologies, the impact of his contributions will likely resonate through various technological fields for years to come.