Tracing the cosmic web
Abstract
The cosmic web is one of the most striking features of the distribution of galaxies and dark matter on the largest scales in the Universe. It is composed of dense regions packed full of galaxies, long filamentary bridges, flattened sheets and vast low density voids. The study of the cosmic web has focused primarily on the identification of such features, and on understanding the environmental effects on galaxy formation and halo assembly. As such, a variety of different methods have been devised to classify the cosmic web -- depending on the data at hand, be it numerical simulations, large sky surveys or other. In this paper we bring twelve of these methods together and apply them to the same data set in order to understand how they compare. In general these cosmic web classifiers have been designed with different cosmological goals in mind, and to study different questions. Therefore one would not {\it a priori} expect agreement between different techniques however, many of these methods do converge on the identification of specific features. In this paper we study the agreements and disparities of the different methods. For example, each method finds that knots inhabit higher density regions than filaments, etc. and that voids have the lowest densities. For a given web environment, we find substantial overlap in the density range assigned by each web classification scheme. We also compare classifications on a halo-by-halo basis; for example, we find that 9 of 12 methods classify around a third of group-mass haloes (i.e. ) as being in filaments. Lastly, so that any future cosmic web classification scheme can be compared to the 12 methods used here, we have made all the data used in this paper public.
Cite
@article{arxiv.1705.03021,
title = {Tracing the cosmic web},
author = {Noam I Libeskind and Rien van de Weygaert and Marius Cautun and Bridget Falck and Elmo Tempel and Tom Abel and Mehmet Alpaslan and Miguel A. Aragoon-Calvo and Jaime E. Forero-Romero and Roberto Gonzalez and Stefan Gottloober and Oliver Hahn and Wojciech A. Hellwing and Yehuda Hoffman and Bernard J. T. Jones and Francisco Kitaura and Alexander Knebe and Serena Manti and Mark Neyrinck and Sebastiaan E. Nuza and Nelson Padilla and Erwin Platen and Nesar Ramachandra and Aaron Robotham and Enn Saar and Sergei Shandarin and Matthias Steinmetz and Radu S. Stoica and Thierry Sousbie and Gustavo Yepes},
journal= {arXiv preprint arXiv:1705.03021},
year = {2017}
}
Comments
24 pages, 8 figures, 2 tables. Submitted to MN. Comments Welcome