Add to ORKGThe rate of merging of dark matter haloes is an absolutely essential ingredient for studies of both structure and galaxy formation. Remarkably, however, our quantitative understanding of the halo merger rate is still quite limited, and current analytic descriptions based upon the extended Press–Schechter formalism are fundamentally flawed. We show that a mathematically self-consistent merger rate must be consistent with the evolution of the halo abundance in the following sense. The merger rate must, when inserted into the Smoluchowski coagulation equation, yield the correct evolution of the halo abundance. We then describe a numerical technique to find merger rates that are consistent with this evolution. We present Results from a prelimin...
Different theoretical methodologies lead to order-of-magnitude variations in predicted galaxy-galaxy...
Using the combined results of the Millennium and Millennium II numerical simulations we compute a nu...
We construct merger trees of dark matter haloes and quantify their merger rates and mass growth rate...
The rate of merging of dark matter haloes is an absolutely essential ingredient for studies of both ...
We place additional constraints on the three parameters of the dark matter halo merger rate function...
We place additional constraints on the three parameters of the dark matter halo merger rate function...
The merger of two supermassive black holes is expected to produce a gravitational-wave signal detect...
The merger of two supermassive black holes is expected to produce a gravitational-wave signal detect...
We present an analytical description of the merging of virialized haloes which is applicable to any ...
We have made a detailed comparison of the results of N-body simulations with the analytical descript...
This paper presents a study of the specific major merger rate as a function of group membership, loc...
We study the merger rate of primordial black holes (PBHs) in self-interacting dark matter (SIDM) hal...
The formation and evolution of galaxies and the supermassive black holes they harbor at their nuclei...
We describe a methodology to accurately compute halo mass functions, progenitor mass functions, merg...
In the concordance ΛCDM cosmological model, galaxies form in the centers of dark matter halos and me...
Different theoretical methodologies lead to order-of-magnitude variations in predicted galaxy-galaxy...
Using the combined results of the Millennium and Millennium II numerical simulations we compute a nu...
We construct merger trees of dark matter haloes and quantify their merger rates and mass growth rate...
The rate of merging of dark matter haloes is an absolutely essential ingredient for studies of both ...
We place additional constraints on the three parameters of the dark matter halo merger rate function...
We place additional constraints on the three parameters of the dark matter halo merger rate function...
The merger of two supermassive black holes is expected to produce a gravitational-wave signal detect...
The merger of two supermassive black holes is expected to produce a gravitational-wave signal detect...
We present an analytical description of the merging of virialized haloes which is applicable to any ...
We have made a detailed comparison of the results of N-body simulations with the analytical descript...
This paper presents a study of the specific major merger rate as a function of group membership, loc...
We study the merger rate of primordial black holes (PBHs) in self-interacting dark matter (SIDM) hal...
The formation and evolution of galaxies and the supermassive black holes they harbor at their nuclei...
We describe a methodology to accurately compute halo mass functions, progenitor mass functions, merg...
In the concordance ΛCDM cosmological model, galaxies form in the centers of dark matter halos and me...
Different theoretical methodologies lead to order-of-magnitude variations in predicted galaxy-galaxy...
Using the combined results of the Millennium and Millennium II numerical simulations we compute a nu...
We construct merger trees of dark matter haloes and quantify their merger rates and mass growth rate...