Scattering graph method for 3D radiative transfer
Computational Physics
2025-08-18 v2 Atmospheric and Oceanic Physics
Optics
Abstract
A novel method for monochromatic scalar 3D radiative transfer, designed primarily for modeling remote sensing imaging, is presented. For simulating an observation of an imaging satellite instrument, the method uses a heuristic scattering coupling function to model the inter-pixel scattering of radiation, which is represented with a graph. The GPU-capable code implementation of the method, TURSCA, was validated against two established 3D RT models, Siro and SHDOM with relative agreement at 3% and 6%, respectively. The capabilities of TURSCA in modeling a satellite observation of an emission plume are examined. The presented method opens up new avenues of research, especially in satellite-based remote sensing of atmospheres.
Cite
@article{arxiv.2503.16037,
title = {Scattering graph method for 3D radiative transfer},
author = {Antti Mikkonen and Anssi Koskinen and Johanna Tamminen and Hannakaisa Lindqvist},
journal= {arXiv preprint arXiv:2503.16037},
year = {2025}
}