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Bremen Workshop on Light Scattering 2026

Leibniz-Institut für Werkstofforientierte Technologien - IWT, Bremen, Germany

16 + 17 March 2026

Registration by sending title of talk: 1 Feb. 2026

LATEX and LyX template for abstracts. Deadline 1 March 2026

Travel and Hotel information

Preliminary list of talks

Jan David Fischbach: Resonant states reveal strong light-matter coupling in nanophotonic cavities

Elias Herzog: Speedup of Multiple Scattering Problems by Singular Value Decomposition of T-matrices

Parmenion Mavrikakis: HELIOS: Light scattering in homogeneous, periodic, and stratified systems with a surface integral approach

Olga Kochanowska: Tunable hyperbolic metasurfaces for switchable Purcell factor enhancement

Jonas Gienger: On the interference of the scattered and incident waves in Gaussian beam scattering problems

Paul Bouillon: Convergence of the weighted discretization in the ADDA code

Alfred Weber: Single Particle Extinction and Scattering approach to characterizing nanoparticle-hetero-aggregates produced by spray synthesis

Clément Argentin: How fast is DDA? A reproducible cross-code benchmark

Ivan Lopushenko: Investigating the relationship between Mie scattering amplitudes and probability amplitudes for quantum light state

Maxim Yurkin: Simulations of plasmonic cubes with the discrete dipole approximation: From success to failure and back

Muluneh G. Abebe: Nanophotonic scintillators for improved X-ray imaging

LIP Conference (Light Interaction with Particles) 2026

will take place from July 5 to 10, 2026, in Rouen, France.

Abstract submission ends........................ January 15^_th, 2026.

Link (21 March 2025)

PyMultiLab

A software called PyMultiLab which can calculate the electromagnetic properties of multilayered spherical particles.

Link (20 Oct 2025)
paper

GaussBeam

Fortran code to compute the field of an fith oder Gaussian beam

Link (16 Sep 2025)
paper

CPDDA: A Python Package for Discrete Dipole Approximation Accelerated by CuPy. CPDDA is object-oriented and provides two modes of operation: CPU and GPU. It can be used to simulate the light scattering and absorption properties of arbitrarily shaped particles.

Link (20 Oct 2025)
paper

PetersonReports

Reports on the T-Matrix Method by Bo Peterson dated 1973, 1974 and 1975, Institut of Theoretical Physiks, Fack, Göteborg, Sweden

The zip-file includes Fortran code.

LBM

Open-source Lattice Boltzmann Method solver for electromagnetic wave scattering and radiation force calculations.

Link (19 Oct 2025)
Paper

MATLAB-MIEV0

MATLAB interface to Warren Wiscombe's MIEV0 Fortran77 code such that it is possible to easily use MIEV0 by directly calling it from MATLAB.

Link (13 Sep 2025)
Link (13 Sep 2025)

[Qext, Qsca, Gqsc, S1, S2, Sforw, Sback, Tforw, Tback, Spike, PMOM] = ...
mlMIEV0(XX, Crefin, Perfct, Mimcut, Anyang, Numang, Xmu, Nmom, Ipolzn, Momdim, Prnt, Verbose);

MPM

Mutual Polarization Method (MPM)

The Matlab code MPM computes the optical response based on the polarization of each particle of a nanoparticle assemble by the applied eld E0 and by the electric dipoles of the other N-1 particles in the system.

Link (3 Oct 2025)
paper

Lock

James Lock's Fortran code for the Finely stratified sphere model (Vol. 25, No. 12/December 2008/J. Opt. Soc. Am. A).

Link (28 Aug 2025) local copy

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