Add to ORKGThe interstellar medium (ISM) in galaxies is multiphase and cloudy, with stars forming in the very dense, cold gas found in Giant Molecular Clouds (GMCs). Simulating the evolution of an entire galaxy, however, is a computational problem which covers many orders of magnitude, so many simulations cannot reach densities high enough or temperatures low enough to resolve this multiphase nature. Therefore, the formation of GMCs is not captured and the resulting gas distribution is smooth, contrary to observations. We investigate how star formation (SF) proceeds in simulated galaxies when we obtain parsec-scale resolution and more successfully capture the multiphase ISM. Both major mergers and the accretion of cold gas via filaments are dominant c...
The processes regulating star formation in galaxies are thought to act across a hierarchy of spatial...
Empirically, the star formation rate of a galaxy depends only on its molecular gas mass. However, re...
We present hydrodynamic simulations of self-gravitating dense gas in a galactic disk, exploring scal...
The interstellar medium (ISM) in galaxies is multiphase and cloudy, with stars forming in the very d...
We use hydrodynamic simulations with detailed, explicit models for stellar feedback to study galaxy ...
Context.Modelling the gaseous component of the interstellar medium (ISM) by Smoothed Particles Hydro...
Two of the dominant channels for galaxy mass assembly are cold flows (cold gas supplied via the fila...
In most of numerical simulations of spiral galaxy formation, mass/spatial resolution is ~ 105-6 M๏ a...
The quest for a better understanding of the evolution of massive galaxies can be broadly summarised ...
We present here the first of a series of papers aimed at better understanding the evolution and prop...
The formation of stars remains an outstanding unsolved problem in astrophysics. Central to this pro...
We present numerical simulations of isolated disk galaxies including gas dynamics and star formation...
We implement physically motivated recipes for partitioning cold gas into different phases (atomic, m...
Modelling galaxy formation in a cosmological context is challenging due to many physical processes a...
Artículo de publicación ISIWe use the adaptive mesh refinement code Enzo to model the interstellar m...
The processes regulating star formation in galaxies are thought to act across a hierarchy of spatial...
Empirically, the star formation rate of a galaxy depends only on its molecular gas mass. However, re...
We present hydrodynamic simulations of self-gravitating dense gas in a galactic disk, exploring scal...
The interstellar medium (ISM) in galaxies is multiphase and cloudy, with stars forming in the very d...
We use hydrodynamic simulations with detailed, explicit models for stellar feedback to study galaxy ...
Context.Modelling the gaseous component of the interstellar medium (ISM) by Smoothed Particles Hydro...
Two of the dominant channels for galaxy mass assembly are cold flows (cold gas supplied via the fila...
In most of numerical simulations of spiral galaxy formation, mass/spatial resolution is ~ 105-6 M๏ a...
The quest for a better understanding of the evolution of massive galaxies can be broadly summarised ...
We present here the first of a series of papers aimed at better understanding the evolution and prop...
The formation of stars remains an outstanding unsolved problem in astrophysics. Central to this pro...
We present numerical simulations of isolated disk galaxies including gas dynamics and star formation...
We implement physically motivated recipes for partitioning cold gas into different phases (atomic, m...
Modelling galaxy formation in a cosmological context is challenging due to many physical processes a...
Artículo de publicación ISIWe use the adaptive mesh refinement code Enzo to model the interstellar m...
The processes regulating star formation in galaxies are thought to act across a hierarchy of spatial...
Empirically, the star formation rate of a galaxy depends only on its molecular gas mass. However, re...
We present hydrodynamic simulations of self-gravitating dense gas in a galactic disk, exploring scal...