Company Filing History:
Years Active: 1989
Title: The Innovations of Richard N. Poorman: Pioneering Optical Spectral Analysis
Introduction: Richard N. Poorman, a distinguished inventor based in South Bend, Indiana, has made significant contributions to the field of optical technology. Holding one patent, his work focuses on enhancing the functionality of optical spectral analyzers, which play a crucial role in the analysis of spectral data.
Latest Patents: Richard N. Poorman is credited with a patent for an "Optical Spectral Analyzer." This innovative device is designed to receive an input beam through a multi-mode optic fiber. The input beam, characterized by a predetermined spectral bandwidth, undergoes dispersion through a grating, allowing it to generate a comprehensive spectrum. A detector then senses the magnitude of the elements in a focused reflected spectrum, effectively recovering the information encoded on the optic fiber from a remote location.
Career Highlights: Richard N. Poorman's professional journey has been marked by his role at AlliedSignal Inc., a company known for its technological advancements and innovative solutions. His dedication to optical engineering and analysis has established him as a valuable asset in his field, marking him as an inventor committed to pushing the boundaries of technology.
Collaborations: Throughout his career, Richard has collaborated with notable colleagues, including Terrance R. Kinney and Stephen M. Emo. Their collective efforts have contributed to advancements in optical analysis technology, showcasing a strong team dynamic that fosters innovation.
Conclusion: Richard N. Poorman's contributions to the field of optical spectral analysis underscore the importance of innovation in technology. His work at AlliedSignal Inc. and the development of his patented optical spectral analyzer demonstrate his commitment to enhancing the capabilities of optical devices. As technology continues to evolve, inventors like Poorman will play a pivotal role in shaping the future of optical analysis.