Back to Search Start Over

Hierarchical octree and k-d tree grids for 3D radiative transfer simulations

Authors :
Maarten Baes
Peter Camps
Waad Saftly
Source :
ASTRONOMY & ASTROPHYSICS
Publication Year :
2013
Publisher :
arXiv, 2013.

Abstract

A crucial ingredient for numerically solving the 3D radiative transfer problem is the choice of the grid that discretizes the transfer medium. Many modern radiative transfer codes, whether using Monte Carlo or ray tracing techniques, are equipped with hierarchical octree-based grids to accommodate a wide dynamic range in densities. We critically investigate two different aspects of octree grids in the framework of Monte Carlo dust radiative transfer. Inspired by their common use in computer graphics applications, we test hierarchical k-d tree grids as an alternative for octree grids. On the other hand, we investigate which node subdivision-stopping criteria are optimal for constructing of hierarchical grids. We implemented a k-d tree grid in the 3D radiative transfer code SKIRT and compared it with the previously implemented octree grid. We also considered three different node subdivision-stopping criteria (based on mass, optical depth, and density gradient thresholds). Based on a small suite of test models, we compared the efficiency and accuracy of the different grids, according to various quality metrics. For a given set of requirements, the k-d tree grids only require half the number of cells of the corresponding octree. Moreover, for the same number of grid cells, the k-d tree is characterized by higher discretization accuracy. Concerning the subdivision stopping criteria, we find that an optical depth criterion is not a useful alternative to the more standard mass threshold, since the resulting grids show a poor accuracy. Both criteria can be combined; however, in the optimal combination, for which we provide a simple approximate recipe, this can lead to a 20% reduction in the number of cells needed to reach a certain grid quality. An additional density gradient threshold criterion can be added that solves the problem of poorly resolving sharp edges and... (abridged).<br />Comment: 10 pages, 6 figures. Accepted for publication in A&A

Details

ISSN :
00046361
Database :
OpenAIRE
Journal :
ASTRONOMY & ASTROPHYSICS
Accession number :
edsair.doi.dedup.....7d7cfa650cf295ca65b32b97ead23d10
Full Text :
https://doi.org/10.48550/arxiv.1311.0705