4.7 Article

Statistics of galaxy mergers: bridging the gap between theory and observation

期刊

出版社

OXFORD UNIV PRESS
DOI: 10.1093/mnras/stab3324

关键词

galaxies: evolution; galaxies: formation; galaxies: general; galaxies: interactions

资金

  1. Royal Astronomical Society
  2. European Union's Erasmus + programme
  3. Science Technology Facilities Council [ST/P006744/1]
  4. STFC [ST/T000244/1]
  5. Science Technology Facilities Council through a CDT studentship [ST/P006744/1]
  6. BEIS capital funding via STFC capital grants [ST/K00042X/1, ST/P002293/1, ST/R002371/1, ST/S002502/1]
  7. Durham University
  8. STFC operations grant [ST/R000832/1]

向作者/读者索取更多资源

In this study, we investigated galaxy mergers up to z = 10 using the Planck Millennium cosmological dark matter simulation and the GALFORM semi-analytical model of galaxy formation. We found that the merger rates decrease rapidly for high-mass galaxies due to the decline in the galaxy stellar mass function. However, the predicted merger rates for massive galaxies increase and then turn over with increasing redshift, which disagrees with other simulations and models. Close pair fractions flatten or turn over at some redshift, consistent with most models and observations. We also compared close pair fractions extensively and found inconsistencies among models and observations. We provided a fitting formula for the major merger time-scale for close galaxy pairs, which showed a weak redshift dependence for massive galaxies only.
We present a study of galaxy mergers up to z = 10 using the Planck Millennium cosmological dark matter simulation and the GALFORM semi-analytical model of galaxy formation. Utilizing the full 800 Mpc(3) volume of the simulation, we studied the statistics of galaxy mergers in terms of merger rates and close pair fractions. We predict that merger rates begin to drop rapidly for high-mass galaxies (M-* > 10(11.3)-10(10.5) M-circle dot for z = 0-4), as a result of the exponential decline in the galaxy stellar mass function. The predicted merger rates for massive galaxies (M-* > 10(10) M-circle dot) increase and then turn over with increasing redshift, by z = 3.5, in disagreement with hydrodynamical simulations and semi-empirical models. In agreement with most other models and observations, we find that close pair fractions flatten or turn over at some redshift (dependent on the mass selection). We conduct an extensive comparison of close pair fractions, and highlight inconsistencies among models, but also between different observations. We provide a fitting formula for the major merger time-scale for close galaxy pairs, in which the slope of the stellar mass dependence is redshift dependent. This is in disagreement with previous theoretical results that implied a constant slope. Instead, we find a weak redshift dependence only for massive galaxies (M-* > 10(10) M-circle dot): in this case the merger time-scale varies approximately as M-*(-0.55). We find that close pair fractions and merger time-scales depend on the maximum projected separation as r(max)(1.32), in agreement with observations of small-scale clustering of galaxies.

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