Redshift Evolution of the Merger Fraction of Galaxies in CDM Cosmologies
Abstract
We use semi-analytical modelling of galaxy formation to study the redshift evolution of the galaxy merger fractions and merger ratesin Lambda CDM and quintessence (QCDM) cosmologies, their dependence on physical parameters as the environment, the merger timescale, the way major mergers are defined, and the minimum mass of objects taken into account. We find that for a given final halo mass the redshift dependence of the merger fraction Fmg and the resulting merger rate can be fitted well by a power law for redshifts z <= 1. The normalization Fmg(0) and the slope m depend on the final halo mass. For a given merger timescale tmerg and an assumed maximum mass ratio Rmajor for major mergers, Fmg(0) and m depend exponentially on each other. The slope m depends logarithmically on the ratio of the final halo mass and the minimum halo mass taken into account. In addition, the local normalization Fmg(0) increases for larger Rmajor while m decreases. We compare the predicted merger fractionwith recent observations and find that the model cannot reproduce both the merger index and the normalization at the same time. In general the model underestimates Fmg(0) and m by a factor of 2.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.