Fortran program for bistatic scattering by single spheroidal particle available by contacting
Dr. Wei Zhang, Helsinki University of Technology, Institute of Radio Communications, Radio Laboratory, Otakaari 5A, FIN 02150 Espoo, Finland
- Tel.: +358 0 451 2255,
- Fax: +358 0 451 2152,
- Email:
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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.
- report a (!6 Sept 2025)
- report b
- report c
- report d
- Fortran code
The transition matrix method, or T-Matrix method, is one of the most powerful and widely used tools for rigorously computing electromagnetic scattering by single and compounded particles.
Homogeneous axisymmetric shapes (via EBCM and IITM): Spheroids, Cylinders, Chebyshev particles. Arbitrary shapes (via IITM): Prisms
- Link (28 Aug 2025)
VGF-Scattering-Code is Fortran code for scattering by 3D particles based on the Variational Greens Function.
- Link (25 Aug 2024)
mstm-spectrum
Python wrapper for Multiple Sphere T-Matrix (MSTM) code for the calculation of extinction spectra of nanoparticle aggregates.
- Link (3 May 2023)
TransitionMatrices.jl
The Julia package `TransitionMatrices.jl` by Zihua Wu implements the classic EBCM method, supporting arbitrary precision and automatic differentiation. To calculate the T-Matrix of various types of scatterers the EBCM and the Invariant Imbedding T-Matrix Method (IITM) is implemented.
- Link (14 April 2023)
TERMS
T-matrix for Electromagnetic Radiation with Multiple Scatterers — a set of Fortran modules/routines and Python scripts for T-matrix-based calculations and analysis of light scattering by clusters of individual scatterers.
- Link (22 Apr 2021)
- Users guide (2 Feb 2022)
