Laser-light and Interactions with Particles, August 25-29th, 2014, Marseille, France
Optical Characterization of Atmospheric Aerosols
November 5-7 2013, Smolenice, Slovak Republic.
The Optical Characterization of Atmospheric Aerosols workshop will take place at the Congress Centre Smolenice SAS.
The main goal of the workshop is to present an opportunity for scientist in different fields to meet and form efficient collaborations in the research of atmospheric aerosols.
For further information see http://www.ocaa2013.sav.sk/
Call for papers
Workshop "Scattering by aggregates (on surfaces)"
Institut für Werkstofftechnik, IWT, Bremen, 24. + 25. March 2014
Deadline for abstracts: 1. Feb. 2014
A java app of Mackwoski and Mishchenko's Superposition T-matrix code for studying the light scattering properties of cosmic dust aggregates. The Java Superposition T-matrix App (JaSTA) software package consists of a Graphical User Interface (GUI) in the front hand and a database of related data’s in the back hand. JaSTA provides a unique and very much user friendly GUI that guides the user at each and every step. It is freely downloadble.
The Mie Theory
Basics and Applications
Series: Springer Series in Optical Sciences, Vol. 169
Hergert, Wolfram; Wriedt, Thomas (Eds.)
2012, XIV, 259 p. 78 illus., 56 in color.
BEM++ is a modern open-source C++/Python boundary element library. It contains a submodule relevant to the implementation of boundary operators and potential operators related to the time-harmonic Maxwell equations in 3D for a region with a uniform scalar permittivity and permeability. The main coding team consists of Simon Arridge, Timo Betcke, Richard James, Nicolas Salles, Martin Schweiger and Wojciech Smigaj.
mstm-gui, Multiple-Sphere T-Matrix with user interface by David Mayerich
Discrete Dipole Scattering C++ code (DDscat.C++) by Vasyl Choliy is a C++ version of the Fortran code DDSCAT for calculating scattering and absorption of light by irregular particles and periodic arrangement of irregular particles.
Code Fortran Mie Theory by Marchant Benjamin.
Code pour calculer les proprietes optiques d'une sphere (theorie de Lorenz-Mie)
En sortie: Qe, W0, g, P11, P12/P11, P33/P11 et -P34/P11
Reference: Hong Du: Mie-Scattering Calculation, Applied Optics, Vol. 43, Issue 9, pp. 1951-1956 (2004)
e-DDA (electron-driven discrete-dipole approximation) for simulating electron energy-loss spectroscopy (EELS) and cathodoluminescence (CL) experiments.