3rd Workshop on Electromagnetic and Light Scattering - Theory and Applications

Bremen, 16 + 17 March 1998

Preliminary Programme

(only the affiliation of the fist author is given)

L. B. Aberle, W. Schröer, W. Staude, University of Bremen:

Determination of particle size and differential cross section by 3D-cross-correlation technique.

M. S. Abrishamian; University of Technology, Teheran:

Field computation for large dielectric bodies by the MAP method.

A. Yu. Anfinogenov, I. K. Lifanov, Air Force Engineering Academy, Moscow:

On numerical solution of integral equation of the fist kind.

J. Beridze , T. Beridze, Batumi State University:

Optics of scattering channel and ist application.

A. G. Borovoi, E. I. Naats, U. G. Oppel, Tomsk:

Light scattering by a large non-spherical particle.

U. Comberg, T. Wriedt, Institut für Werkstofftechnik, Bremen

Scattering by inhomogeneous particles, exact theories and effective-medium theories.

H. Dahl, T. Wriedt, University of Bremen:

Shape influence of silver halogenide crystals on light scattering.

A. G. Dmitrenko, Tomsk State University:

Discrete sources method for solution of electromagnetic scattering problems of three dimensional arbitrary shaped bodies.

A. Doicu, University of Bremen:

Multiple Multipole Extended Boundary Condition Method.

V. T. Dymshits, Kharkov State University:

Application of microwave holography for scattering far-field simulation.

Y. Eremin, Moscow State University:

Discrete Sources Method for wafer surface defects modelling.

H. Yu. Eremina, A. G. Sveshnikov, Moscow State University:

Simulation of light scattering by particle inside film via discrete sources method.

N.V. Grihina´, Yu. A. Erenin, Moscow State University:

Light scattering analysis by hole in a stratified film.

Ch. Hafner, ETH Zürich:

Maxwell-based codes for computational optics.

H. Ikuno, Kumamoto University:

Analysis of three-dimensional electromagnetic scattering problems using the Yasuura method.

M. Imhof, MIT, Cambridge:

Multiple multipole expansions for acousto-elastic multiple scattering.

V.I. Ivakhnenko, Yu. A. Eremin, J.C. Stover, ADE Optical Systems, Charlotte

Modelling of light scattering by non-spherical inhomogeneous particles.

D. Karkasadze, Tbilisi State University:

Canonical method of auxiliary sources in the problem of electromagnetic scattering by bodies of complex materials.

A. G. Kyurkchan, A. I. Kleev, S. A Manenkov, Moscow Technical University:

A new numerical-analytical method of boundary scattering problems solving.

A. Kokhanovsky, T. Nakajima: Technical University Clausthal:

Phase functions of large transparent particles. The geometrical optics asymptotics.

V. F. Kravchenko, V. A. Rvachev, Institute of Radio Engineering and Electronics, Moscow:

R-function theory and ist application for the solution of boundary value problems in arbitrary domains.

V. F. Kravchenko, V. A. Rvachev, Institute of Radio Engineering and Electronics, Moscow:

Electromagnetc scattering waves and atomic functions.

H. Bech, A. Leder, University of Rostock:

Numerical investigations concerning two-particles-scattering in the measuring volume of a PDA-system on the base of the Fourier-Lorenz-Mie-Theory

H. Lemke GKSS, Geesthacht:

Backscattering of radar waves by non-spherical atmospheric ice crystals: An application of the discrete dipole approximation.

Y. Leviatan, Technion, Haifa:

On the use of Gabor-like and wavelet-like expansions in the method of fictitious current models for efficient solution of scattering problems.

V. N. Lopatin, N. V. Shepelevich, I. V. Prostakova, Institute of Biophysics, Krasnoyarsk:

Basic mechanisms of formation of integral scattering indicatrix of optically soft spheres.

V. V. Lopushenko, Moscow State University:

Modelling of light scattered by microroughness of filmed wafers.

B. Michel, University of Jena:

Distorted wave approach to optical properties of inhomogeneous spheres.

F. Obelleiro, University of Vigo:

Hybrid GMT-MoM-Method for Solving Electromagnetic Scattering Problems.

Y. Okuno, Kumamoto University:

Yasuura's method, its relation to the fictitious source methods, and its advancements in the solution of 2- D problems.

N. Orlov, Arizona State University:

Light scattering from defects of filmed silicon wafers by method of discrete sources.

S. Oshchepkov, H. Isaka, Belarus Academy of Sciences, Mink:

Information content of scattering phase function with respect to retrieval of particle size and compound

composition of mixed phase clouds.

V. I. Ovod, D. F. Nicoli, Particle Sizing Systems, Santa Barbara:

Modeling of multiple scattering suppression in photon correlation spectroscopy

W. Pascher, FernUniversität, Hagen:

Combination of GMT and method of lines for electromagnetic scattering problems.

N. Piller, ETH Zürich:

Scattering by anisotropic bodies with the generalized multipole technique.

M. Quinten, R. Wannemacher, A. Pack, University Graz:

Scattering and extinction of evanescent waves by spherical particles.

T. Quinteros, M. Bjuggren, Institute of Optical Research, Stockholm:

The discrete dipole approximation used to model the optical behaviour of clusters of pigments in paper coatings.

W. Rysakov, M. Ston, Pedagogical University, Slupsk:

Use of expansion into spectrum on Kotelnikov-Shannon´s sampling functions in the theory of light scattering: The scattering of ellipsoids.

E. N. Korshunova, I. P. Korshunov, A. N. Sivov, A. D. Shatrov, Institute of Radio Engineering and Electronics:

Surface wave of strip with anisotropic conductivity:

V. A. Sterligov, Institut of Semiconductor Physics, Kiev:

Elastic light scattering by structure defects.

J. Stover, C. A. Scheer, V. I. Ivakhnenko, ADE Optical Systems, Charlotte

Comparison of scattering measurements of arbitrarily shaped pits to a volume integral equation model.

V. P. Titar, V. T. Dymshits, A. M. Naboka, O. V. Shpachenko, Kharkov State University:

A complex method of laser remote sensing of atmospheric pollution.

T. V. Titar, V. P. Titar, Kharkov State University:

Holographic imaging and sizing of microscopic particles.

G. Videen, Army Research Laboratory, Adelphi:

Polarized light scattering from surface contaminants.

R. Zaridze, Tbilisi State University:

Some recent developments in Method of Auxiliary Sources for Inverse and Scattering problems on large

and complex structures.

Registration fee:

DM 200.-

Bremen evening on 16.3.98

DM 50.-

Proceedings

Printed proceedings will be available at beginning of the workshop.

Workshop location

The workshop will be held at

IWT

Institut für Wekstofftechnik

Badgasteiner Str. 3

23359 Bremen, Germany

Accomodation

Participants should care for accomadation themselves. A special rate of DM 99,- single room and DM 150,- douple room (incl. breakfast) has been arranged with

Hotel Deutsche Eiche

Lilienthaler Heerstr. 174-176

28257 Bremen

Tel.: +49 421 252757

fax: + 49 421 251014

Reservations should be made as soon as possible directly with the hotel. Please mention "University of Bremen" in order to obtain the special room rate.

Informal meeting

An informal meeting has been arraged in the evening of 15. March (20.00 h) at this hotel.

Registration

Please send your registration together with registration fee to:

Dr.-Ing. Thomas Wriedt

Universität Bremen

FB4/Verfahrenstechnik

28334 Bremen

Germany

Tel.: +49 421 218 2507

Fax: + 49 421 218 5378

email: thw@iwt.uni-bremen.de