Bibcode
Stringer, M. J.; Shankar, F.; Novak, G. S.; Huertas-Company, M.; Combes, F.; Moster, B. P.
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society, Volume 441, Issue 2, p.1570-1583
Fecha de publicación:
6
2014
Número de citas
20
Número de citas referidas
20
Descripción
We show that recently documented trends in galaxy sizes with mass and
redshift can be understood in terms of the influence of underlying
cosmic evolution; a holistic view which is complimentary to
interpretations involving the accumulation of discreet evolutionary
processes acting on individual objects. Using standard cosmology theory,
supported with results from the Millennium Simulations, we derive
expected size trends for collapsed cosmic structures, emphasizing the
important distinction between these trends and the assembly paths of
individual regions. We then argue that the observed variation in the
stellar mass content of these structures can be understood to first
order in terms of natural limitations of cooling and feedback. But
whilst these relative masses vary by orders of magnitude, galaxy and
host radii have been found to correlate linearly. We explain how these
two aspects will lead to galaxy sizes that closely follow observed
trends and their evolution, comparing directly with the Cosmic Evolution
Survey and Sloan Digital Sky Survey. Thus we conclude that the observed
minimum radius for galaxies, the evolving trend in size as a function of
mass for intermediate systems, and the observed increase in the sizes of
massive galaxies, may all be considered an emergent consequence of the
cosmic expansion.