MSTM

The Multiple Sphere T Matrix Fortran-90 Code by Dan Mackowski.

MSTM is a package for calculating the electromagnetic scattering and absorption properties of systems of spheres.
The code is designed to run on distributed memory parallel platforms, and uses MPI instructions in conjunction with fortran-90.

Initial release date: 15 January 2011.

• Link

DDA-SI home page

The DDA-SI toolbox for MATLAB:

1) Standard DDA for free space light scattering calculations

2) DDA with surface interaction (DDA-SI)

3) Discrete rotational symmetry-optimized DDA, T-matrix formulation (not include in release v0.1)

Download link for beta releases,

v0.1: http://code.google.com/p/dda-si/

v0.2: https://github.com/dalerxli/dda-si

Functions from the Optical Tweezers Toolbox are also required:

http://www.physics.uq.edu.au/people/nieminen/software.html

The functions are for coordinate transformation, generating beam shape coefficients for arbitrary illumination, vector spherical wave functions etc.

Please cite the accompanying paper:

Vincent. L.Y. Loke, M. Pinar Mengüç and Timo A. Nieminen, "Discrete dipole approximation with surface interaction: Computational toolbox for MATLAB", JQSRT, Vol. 27 Issue 10, pp.2293-2303 (2010), http://dx.doi.org/10.1016/j.jqsrt.2011.03.012

Associated theoretical paper for reference:

Vincent. L.Y. Loke and M. Pinar Mengüç, "Surface waves and atomic force microscope probe-particle near-field coupling: discrete dipole approximation with surface interaction", JOSA A, Vol. 27 Issue 10, pp.2293-2303 (2010), http://www.opticsinfobase.org/spotlight/summary.cfm?URI=josaa-27-10-2293

Corresponding author: This email address is being protected from spambots. You need JavaScript enabled to view it.

EMWave2D

EMWave2D by Wayan Sudiarta is a program for simulating 2D electromagnetic wave propagation. EMWave2D is based on solving the Maxwell’s equations by the finite difference time domain (FDTD) method.

• Link (9 Jan 2011)

Doicu: Numerical Regularization

Adrian Doicu,Thomas Trautmann, Franz Schreier

Numerical Regularization for Atmospheric Inverse Problems

Springer Praxis, Berlin, Heidelberg 2010.

• Link (18 Dez 2010)

Educational FDTD

Educational FDTD 3d software by Salvador González García

• Link (7 Jan 2011)

NFM-DS new parallel code

Starting from today the parallel Fortran version of the Null-field Method with Discrete Sources (NFM-DS) is available. The NFM-DS is an extension of the Null-field Method (also called T-Matrix Method) to compute light scattering by arbitrarily shaped dielectric particles and particles on a plane interface.

• Link (16 Apr 2010)

Elmer

Elmer Open Source Finite Element Software for Multiphysical Problems. Elmer is an open source multiphysical simulation software developed by CSC including physical models of electromagnetics.

• Link (7 Jan 2011)

Van de Hulst Award

Van de Hulst Light-Scattering Award

Journal of Quantitative Spectroscopy & Radiative Transfer (JQSRT) announces:

We are very pleased to announce that Elsevier has established the Van de Hulst Light-Scattering Award. The Award will be presented every two years and consist of a glass statuette and an official Elsevier certificate.

The Award is meant to celebrate the life-time achievement of an individual scientist who has made a landmark contribution to the research field of electromagnetic scattering by particles and its applications. This Elsevier Award will be administered by the Editors and Publisher of the Journal of Quantitative Spectroscopy & Radiative Transfer.

• Announcement local copy (6 Dec 2010)
• Obituary H.C. van de Hulst
• In memoriam: Hendrik Christoffel van de Hulst
• Hendrik Christoffel van de Hulst: Biographical Memoirs
• Hust, Hendrik Christoffel van de (1918-2000) Biografie
• ван де Хюлст, Хендрик Кристофель

Lattice software

C++ Lattice software by Wolfgang Orthuber to investigate discretized Maxwell equations and other discretized systems.

• Link (7 Jan 2011)

Livre GLMT

Book on the Generalied Lorenz-Mie theory for scattering by a sphere in a Gaussian beam giving full desciption of the theory and FORTRAN programs:

G. Gouesbet, G. Grehan, B. Maheu, K. F. Ren, Electromagnetic Scattering of Shaped Beams (Generalized Lorenz-Mie Theory), LESP, CORIA, INSA de Rouen, Saint Etienne du Rouvray, March 19, 1998.

• Original link (10 Jun 2002, offline)
• Link (2 Dec 2010)