Statistical comparison of clouds and star clusters
Abstract
The extent to which the projected distribution of stars in a cluster is due to a large-scale radial gradient, and the extent to which it is due to fractal sub-structure, can be quantified -- statistically -- using the measure . Here is the normalized mean edge length of its minimum spanning tree (i.e. the shortest network of edges connecting all stars in the cluster) and is the correlation length (i.e. the normalized mean separation between all pairs of stars). We show how can be indirectly applied to grey-scale images by decomposing the image into a distribution of points from which and can be calculated. This provides a powerful technique for comparing the distribution of dense gas in a molecular cloud with the distribution of the stars that condense out of it. We illustrate the application of this technique by comparing values from simulated clouds and star clusters.
Cite
@article{arxiv.1010.5944,
title = {Statistical comparison of clouds and star clusters},
author = {O. Lomax and A. P. Whitworth and A. Cartwright},
journal= {arXiv preprint arXiv:1010.5944},
year = {2015}
}
Comments
Accepted 2010 October 27. Received 2010 October 25; in original form 2010 September 13 The paper contains 7 figures and 2 tables