Galaxy alignments: Theory, modelling and simulations
Abstract
The shapes of galaxies are not randomly oriented on the sky. During the galaxy formation and evolution process, environment has a strong influence, as tidal gravitational fields in the large-scale structure tend to align nearby galaxies. Additionally, events such as galaxy mergers affect the relative alignments of both the shapes and angular momenta of galaxies throughout their history. These "intrinsic galaxy alignments" are known to exist, but are still poorly understood. This review will offer a pedagogical introduction to the current theories that describe intrinsic galaxy alignments, including the apparent difference in intrinsic alignment between early- and late-type galaxies and the latest efforts to model them analytically. It will then describe the ongoing efforts to simulate intrinsic alignments using both N-body and hydrodynamic simulations. Due to the relative youth of this field, there is still much to be done to understand intrinsic galaxy alignments and this review summarises the current state of the field, providing a solid basis for future work.
Cite
@article{arxiv.1504.05546,
title = {Galaxy alignments: Theory, modelling and simulations},
author = {Alina Kiessling and Marcello Cacciato and Benjamin Joachimi and Donnacha Kirk and Thomas D. Kitching and Adrienne Leonard and Rachel Mandelbaum and Björn Malte Schäfer and Cristóbal Sifón and Michael L. Brown and Anais Rassat},
journal= {arXiv preprint arXiv:1504.05546},
year = {2016}
}
Comments
53 pages excl references, 17 figures; changes to match version published in Space Science Reviews; part of a topical volume on galaxy alignments, with companion papers arXiv:1504.05456 and arXiv:1504.05465