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Keynote - Matthew J. Berg

Keynote addresses will be delivered to set the underlying tone and summarize the core message. These speeches will be done by specialists from laboratories and international companies recognized for their expertise in the field.

DIGITAL HOLOGRAPHY OF AEROSOL PARTICLES
Matthew J. Berg
Department of Physics, Kansas State University, USA


Methods to determine the physical properties of aerosol particles are important in a vast array of scientific and applied contexts. Due in part to the difficulty of collecting such particles, a variety of contact-free techniques have been developed that infer information about the particles in an indirect manner. A popular example is elastic light-scattering where the angular pattern of light scattered from a particle is analyzed to estimate particle properties like shape and size. This approach is often said to suffer from the “inverse problem,” as there is generally no way to know if the inferred information is correct. Fundamentally, this is due to the loss of optical phase information in such measurements. An alternative is to image the particles using holography. By placing a digital image-sensor in an optical beam containing a particle, the interference pattern produced by the scattered and unscattered light is easily measured. The pattern constitutes a digital hologram of the particle and useful information can be extracted from it directly since phase information is encoded in the hologram. For example, applying a Fourier-transform operation yields a silhouette-like image of the particle, thus revealing its shape and size without any need for a priori information. The extinction cross section can also be obtained from the hologram. Thus, digital holography “solves,” or better said, averts, the classic inverse problem. This talk will present our recent work in this area and its future applications in atmospheric science.

Matthew Berg is a tenured associate professor of physics in the Department of Physics at Kansas State University (KSU). Professor Berg received a Ph.D. in physics from KSU in 2008 and a B.Sc. in Engineering Physics from the Colorado School of Mines in 2003. Following graduate school, he held a National Research Council postdoctoral fellowship at the U.S. Army Research Laboratory from 2009-2010. In 2010 he joined the Department of Physics & Astronomy at Mississippi State University and then KSU in 2016. Throughout his career, Berg’s research has focused on various applications of electromagnetic scattering. His initial theoretical work in this area lead to new discoveries in the asymptotic behaviors of optical extinction, i.e., the so-called extinction paradox. Later, he developed laboratory techniques with digital holography and demonstrated their potential for aerosol-particle characterization. Berg is now applying this holography work to advance our understanding of the physical properties of coarse-mode atmospheric aerosol particles in situ through drone-based measurements.

 

 

FIRST EXPERIMENT WITH FRENCH CUBI OBJECT
Alain Le Goff, DGA Information superiority, France


 

SCATTERING THEORY: A short review of theoretical features for practical appl
Olivier Pujol, Laboratory of atmospheric optics (LOA), Lille University, France