Richard G Magner

Title: The Innovations of Richard G Magner: A Pioneer in Electrophoretic Analysis

Introduction

Richard G Magner, an inventive mind based in Raleigh, NC, has made significant contributions to the field of electrophoretic analysis. With two patents to his name, Magner's innovative solutions have advanced the capabilities of analytical instrumentation, particularly in the medical and research sectors.

Latest Patents

Magner's latest inventions include the "Electrophoretic Analyzer with Automatic Reference Circuit" and a "Pulse Discriminator Circuit". The first patent describes an analyzer designed for electrophoretic samples, featuring a sample stage that moves linearly relative to both a source and a detector of analysis energy. This technology allows for automatic correction of output signals during analysis, enhancing accuracy in detecting fluorescence and optical density.

The second patent, the "Pulse Discriminator Circuit", focuses on a closed-loop scanning and positioning system that identifies and positions white blood cells. The process involves scanning the surface of a slide to generate an optical signal that is converted into an electrical signal. The pulse discriminator circuit ensures that only signals from white blood cells are processed, facilitating precise positioning within a microscope's optical system.

Career Highlights

Currently, Richard G Magner is associated with Corning Glass Works, a company known for its advanced materials and glass technology. His work is instrumental in enhancing the functionality of optical devices used in medical diagnostics and research applications.

Collaborations

Throughout his career, Magner has collaborated closely with notable colleagues such as David L Hollis and William E Powell. These collaborations have enriched the development of his inventions, fostering a dynamic environment for innovation within the team.

Conclusion

Richard G Magner exemplifies the spirit of innovation in the field of electrophoretic analysis. Through his patents, he has made a lasting impact on medical technology, demonstrating how creativity and engineering can converge to improve diagnostic processes. His work not only advances scientific understanding but also contributes to better healthcare outcomes.