

JFEM3D
JEM3D ist an FEM solver by Jeffrey M. McMahon which solves the vector wave equation for the electric or magnetic field directly.
Virtual Tissue Simulator
Virtual Tissue Simulator (VTS) is a modular and scalable computational platform, to provide an integrated suite of computational tools to define, solve, visualize, and analyze relevant forward and inverse radiative transport problems in biomedical optics. This is a beta release of a MATLAB interoperability package that works with the Windows version of MATLAB.
Bremen Workshop on Light Scattering 2016
Institut für Werkstofftechnik, IWT, Bremen, 7. + 8. March 2016
Word template for abstracts. Deadline 1. Feb. 2016
Travel and Hotel information
Preliminary list of talks
Topics
 TMatrix Methods
 Generalized Multipole Methods
 Discrete Dipole Approximation
 Particle surface scattering interaction
 Evanescent wave scattering
 Near field enhancement
 Plasmonics
 Electron Energy Loss Spectroscopy in the low loss region
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NPL Simulations
This code by Giuseppe Toscano is an extension to the COMSOL 4.2a RF Module. It is based on the hydrodynamic model which incorporates nonlocal effects in the optical response of nanoplasmonic structures. The extension can only handle 2D structures.
Scattering by Aggregates on Surfaces
Series: ScattPort Series, Vol. 1 Wriedt, Thomas; Eremin, Yuri (Eds.) epubli, Berlin 2014, Softcover 31,59 € ISBN: 9783844299441
MAXDGTD by Hassan Fahs is a discontinuous Galerkin code for solving Maxwell's equations in the timedomain (DGTD). It is a Fortran code.
gprMax3D
Ground Penetrating Radar (GPR) is a nondestructive electromagnetic investigative tool used in many diverse applications across the fields of engineering and geophysics.
Mie Simulator GUI
This is a Mie Simulator GUI application. Mie Simulator GUI tool is capable of calculating  Scattering coefficient  Scattering cross section  Reduced scattering coefficient  Phase function  S1 and S2  Average cosine of the phase function for a single or series of wavelengths
VCRMEll2D
VCRMEll2D by Kuan Fang Renis the first realization of the Vectorial Complex Ray Model  VCRM developed by the author. By introducing the property of the Wavefront in the geometrical optics model, the VCRM can calculate very precisely the interaction of a wave of any form with a object of smooth surface and size much larger than the wavelength of the incident beam.



