Company Filing History:
Years Active: 1998
Title: Innovations of Aaron Wayne Garrett
Introduction
Aaron Wayne Garrett is an accomplished inventor based in Kingsport, TN (US). He has made significant contributions to the field of Raman spectroscopy, particularly through his innovative methods for standardizing Raman spectrometers. His work has implications for accurate chemical analysis and physical property assessments of various samples.
Latest Patents
Garrett holds a patent for a method that standardizes Raman spectrometers to obtain stable and reliable results. This patent, titled "Method for standardizing Raman spectrometers to obtain stable and," describes a technique that utilizes a specific Raman spectrometry apparatus to simultaneously irradiate a reference material and at least one sample. By obtaining their respective convolved Raman spectra, Garrett's method allows for the determination of a convolution function that produces a deconvolved Raman spectrum of the sample. This spectrum is then multiplied by a defined standard photometric response function to yield a standard Raman spectrum of the sample. The method also facilitates accurate and precise quantitative analysis of the chemical composition and physical properties of unknown samples by constructing a normalized calibration from standard Raman spectra of known samples.
Career Highlights
Garrett is currently employed at Eastman Chemical Company, where he continues to apply his expertise in Raman spectroscopy. His innovative approach has positioned him as a valuable asset in the field of chemical analysis and materials science.
Collaborations
Throughout his career, Garrett has collaborated with notable colleagues, including Howard Smith Carman, Jr. and Daniel Charles Alsmeyer. These collaborations have further enhanced his research and development efforts in Raman spectroscopy.
Conclusion
Aaron Wayne Garrett's contributions to the field of Raman spectroscopy exemplify the importance of innovation in scientific research. His patented methods not only advance the technology but also provide essential tools for accurate chemical analysis.