Company Filing History:
Years Active: 2018
Title: Inventor Stephen Chad Kanick: Innovating Optical Measurement Techniques
Introduction
Stephen Chad Kanick, based in Wheeling, West Virginia, is an accomplished inventor known for his significant contributions to the field of optical measurement. With a focus on advancing the understanding of turbid media, Kanick has developed a unique method that enhances the accuracy of absorption coefficient measurements.
Latest Patents
Kanick holds one patent titled "Method to determine the absorption coefficient in turbid media." This innovative invention provides a systematic approach for determining the wavelength-dependent absorption coefficient by employing overlapping illumination detection areas. The method consists of several critical steps, including retrieving calibration spectra, measuring absolute reflection spectra, and using model functions that integrate prior knowledge of scattering phase functions. Moreover, the invention encompasses a system and a computer program product designed to facilitate the determination of these coefficients, which has potential applications in various scientific and industrial fields.
Career Highlights
Kanick's work primarily reflects a commitment to pushing the boundaries of optical measurement technology. His inventive process involves meticulous calibration and measurement techniques that ensure accurate data collection in challenging environments where turbid media presents complications. This dedication to improving measurement capabilities showcases his importance within the optical science community.
Collaborations
Throughout his career, Kanick has worked alongside notable colleagues such as Henricus Josephus Cornelus Maria Sterenborg and Arjen Amelink. These collaborations have likely enriched his projects, allowing for interdisciplinary insights and advancements in optical measurement technologies.
Conclusion
Stephen Chad Kanick stands out as an innovative inventor whose patented method for measuring absorption coefficients in turbid media reflects his deep understanding of optical phenomena. His contributions will undoubtedly influence future research and practical applications in this vital area of scientific inquiry, underscoring the significance of inventive work in advancing technology and knowledge.