Fraunhofer Diffraction (light scattering by ensemble of particles)
Electrophoretic Light Scattering
or by a combination of the techniques.
Combine the advantages of different types of particle analyzers.
Convert measurement results obtained by various analyzers to the general platform.
Improve your instrument's operation through interpretation of measurement results, error correction, design optimization, software development, mathematical modeling of multiple light scattering, etc.
Develop or upgrade algorithms and embedded software for real time data interpretation of measurement results and error correction in various kind of optical instruments and sensors.
Explain and solve your problems in particle size measurements.
Provide numerical modeling of your measurement results by using multiple light scattering algorithms.
Synopsis of Qualifications:
Ph.D. in Optical Engineering
M.S. in Electrical Engineering
20 years experience in research and development of light scattering sensors and instruments
16 years experience in mathematical modeling and software design (FORTRAN, C, C++) applied to optimization of optical sensors, signal processing, and measurement errors suppression
Extensive experience in numerical analysis of interaction of electromagnetic waves with dispersed systems (colloids, aerosols, biological cells, and powders) for remote sensing and radar design
Extensive experience in particle sizing (1nm - 5mm) in semiconductor industry, medicine, meteorology and fine particle technology
2 years teaching experience as an Associate Professor in Optics
Over thirty papers published in peer-reviewed journals