Company Filing History:
Years Active: 2003
Title: Richard D Bardo: Innovator in Infrared Detection Technology
Introduction
Richard D Bardo is a notable inventor based in Adelphi, MD (US). He has made significant contributions to the field of infrared detection technology. His innovative work focuses on enhancing the efficiency and operability of infrared detectors.
Latest Patents
Bardo holds a patent for an "Uncooled niobium trisulfide midwavelength infrared detector." This invention utilizes a set of Niobium Trisulfide (NbS) crystal fibers arranged in parallel on a substrate to sense incident infrared radiation of specific polarities. The design allows for the detection of unpolarized or variously polarized infrared radiation by employing multiple substrates, each with its own set of parallel fibers. This configuration enables the detection of infrared radiation at different angles, such as 0-degree, 45-degree, 90-degree, and 135-degree. The crystalline fibrous Niobium Trisulfide material is classified as a "charge density wave" material, which offers unique attributes. This invention provides a more economical operability at significantly higher temperatures compared to conventional infrared-photosensitive materials, making it particularly suitable for midwavelength infrared radiation detection.
Career Highlights
Bardo is currently associated with the USA as represented by the Secretary of the Navy. His work in this capacity has allowed him to contribute to advancements in military and defense technologies. His innovative approach to infrared detection has positioned him as a key figure in this specialized field.
Collaborations
Bardo has collaborated with Peter J Sarman, working together to advance the technology related to infrared detection. Their partnership has fostered innovation and development in this critical area of research.
Conclusion
Richard D Bardo's contributions to infrared detection technology exemplify the spirit of innovation. His patented work on uncooled niobium trisulfide detectors showcases his commitment to enhancing the efficiency and effectiveness of infrared sensing.