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Series: ScattPort Series, Vol. 4
Wriedt, Thomas (Ed.)
Light Scattering by Particles, Bremen Workshop 2017
epubli, Berlin 2017, Softcover 22,00 €
ISBN: 9783745016666
HoloRec3D: Digital Holography Matlab Toolbox
Python Mie Scattering package (PyMieScatt)
In addition to over twenty functions for Mie theory calculations, it contains our implementation of a highly visual method for solving the inverse Mie problem for the complex refractive index, given known or assumed size parameter and optical measurements.
Series: ScattPort Series, Vol. 3
Wriedt, Thomas (Ed.)
Light Scattering by Particles, Theoretical and Practical Aspects
epubli, Berlin 2016, Softcover 20,00 €
ISBN: 9783741848797
CELES CUDA-accelerated Electromagnetic scattering for Large Ensembles of Spheres
CELES is a fast MATLAB code for the multi-sphere T-matrix method implemented by Amos Egel, Lorenzo Pattelli and Giacomo Mazzamuto. It runs on NVIDIA GPUs. The aim of the software is to solve light scattering problems comprising very large numbers of spherical particles.
nanoDDSCAT+ combines the Discrete Dipole Scattering (DDSCAT) tool with the DDAConvert tool for a single workflow for custom shapes.
SMUTHI
SMUTHI by Amos Egel solves 3D light scattering problems involving one or multiple particles (spheres, spheroids and finite cylinders) inside a planarly layered medium. It is based on the T-matrix method for the individual particles and on the scattering-matrix method for the propagation through the layered medium. For spheroids and finite cylinders, the particles' T-matrices are computed using the NFM-DS package by Adrian Doicu, Thomas Wriedt and Yuri Eremin.
Maxwell2D: Animations of electromagnetic waves
This page contains animations of numerical solutions to Maxwell's equations in a 2D domain (using the Finite-Difference Time-Domain method, FDTD).
2D FDTD Mini Simulation
Focus field calculations
In analogy to the classical Debye formulation and the seminal work by Wolf and Richards, This email address is being protected from spambots. You need JavaScript enabled to view it. reformulated the calculation of the electromagnetic field in the focus of high numerical aperture objectives based on a Fourier or chirp z transform.
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