A 3D radiative transfer framework IX. Time dependence
Abstract
Context. Time-dependent, 3D radiation transfer calculations are important for the modeling of a variety of objects, from supernovae and novae to simulations of stellar variability and activity. Furthermore, time-dependent calculations can be used to obtain a 3D radiative equilibrium model structure via relaxation in time. Aims. We extend our 3D radiative transfer framework to include direct time dependence of the radiation field; i.e., the terms are fully considered in the solution of radiative transfer problems. Methods. We build on the framework that we have described in previous papers in this series and develop a subvoxel method for the terms. Results. We test the implementation by comparing the 3D results to our well tested 1D time dependent radiative transfer code in spherical symmetry. A simple 3D test model is also presented. Conclusions. The 3D time dependent radiative transfer method is now included in our 3D RT framework and in PHOENIX/3D.
Keywords
Cite
@article{arxiv.1209.5788,
title = {A 3D radiative transfer framework IX. Time dependence},
author = {D. Jack and P. H. Hauschildt and E. Baron},
journal= {arXiv preprint arXiv:1209.5788},
year = {2012}
}
Comments
A&A in press, 7 pages, 14 figures