Company Filing History:
Years Active: 1994
Title: Reagan Cole: Innovator in Particle Analysis Technology
Introduction
Reagan Cole is a notable inventor based in Little Rock, Arkansas. He has made significant contributions to the field of particle analysis through his innovative patent. His work focuses on enhancing the understanding of particle characteristics, which has implications in various scientific and industrial applications.
Latest Patents
Reagan Cole holds a patent for a "Method and apparatus for particle analysis." This invention features an aerosol spectrometer that integrates the capabilities of forced motion instruments and optical particle sizers. The technology allows for the analysis of suspended particles in multiple force fields, enabling the measurement of density, diameter, electrical charge, magnetic moment, and other physical attributes of individual particles. Notably, this method does not require precision size standards for accurate measurements. The optical scattering parameters, including scattering magnitude and visibility, can also be extracted, facilitating the calibration of the optical sizer based on independently measured size parameters. The rapid nature of the optical counter allows for feedback control in the application of force on particles and the sample dispensing apparatus. This innovation enables the characterization of particle attributes in ensembles, such as naturally occurring aerosols or dispersed powder samples.
Career Highlights
Reagan Cole is affiliated with the University of Arkansas, where he continues to advance research in particle analysis. His work has garnered attention for its potential applications in various fields, including environmental science and materials engineering.
Collaborations
Due to space constraints, the collaborations section will be omitted.
Conclusion
Reagan Cole's contributions to particle analysis technology exemplify the impact of innovative thinking in scientific research. His patent not only enhances measurement techniques but also opens new avenues for understanding particle behavior in various contexts.