Company Filing History:
1 out of 24 
1 out of 832,843 Years Active: 1994-1996
Title: Innovations of Thomas C Borah
Introduction
Thomas C Borah is an accomplished inventor based in Vista, California. He has made significant contributions to the field of light technology, particularly through his innovative patents. With a total of two patents to his name, Borah's work focuses on enhancing the performance of liquid crystal devices.
Latest Patents
Borah's latest patents include advancements in photoconductivity reduction in cadmium telluride films for light. This invention involves a liquid crystal light valve device that exhibits improved performance capabilities by utilizing a cadmium telluride light blocking layer doped with nitrogen. The incorporation of nitrogen allows for high-speed, low-cost sputtering techniques without causing excessive photoconductivity or photoshading. Additionally, the process offers precise control and flexibility, which enhances the quality aspects of the light blocking layer, such as particulate density. Another notable patent is related to the creation of DC fields in a liquid crystal light valve. This invention addresses a DC induced transient optical phenomenon, where the output brightness level changes as the DC fields are redistributed within the liquid crystal light valve. By employing a liquid crystal material with greatly decreased resistivity, Borah minimizes adverse effects and improves the response time of the device.
Career Highlights
Throughout his career, Thomas C Borah has worked with notable companies, including Hughes-JVC Technology Corporation. His expertise in the field has allowed him to develop innovative solutions that push the boundaries of light technology.
Collaborations
Borah has collaborated with talented individuals such as Javier A Ruiz and Craig P Stephens, contributing to the advancement of his projects and inventions.
Conclusion
Thomas C Borah's contributions to the field of light technology through his patents demonstrate his innovative spirit and dedication to improving device performance. His work continues to influence advancements in liquid crystal technology.