We present an analytic model for clustered supernovae (SNe) feedback in galaxy disks, incorporating the dynamical evolution of superbubbles formed from spatially overlapping SNe remnants. We propose two realistic outcomes for the evolution of superbubbles in galactic disks: (1) the expansion velocity of the shock front falls below the turbulent velocity dispersion of the ISM in the galaxy disk, whereupon the superbubble stalls and fragments, depositing its momentum entirely within the galaxy disk, or (2) the superbubble grows in size to reach the gas scale height, breaking out of the galaxy disk and driving galactic outflows/fountains. In either case, we find that superbubble breakup/breakout almost always occurs before the last Type-II SN ...
Impulsive supernova feedback and non-standard dark matter models, such as self-interacting dark matt...
Some stars are known to explode at the end of their lives, called supernovae (SNe). The substantial ...
Young stars typically form in star clusters, so the supernovae (SNe) they produce are clustered in s...
We present a suite of galaxy formation simulations that directly model star cluster formation and di...
Star formation and stellar feedback are interlinked processes that redistribute energy and matter th...
We present results from galaxy evolution simulations with a mutiphase Interstellar medium (ISM), a m...
We address a simple model where the Kennicutt-Schmidt (KS) relation between the macroscopic densitie...
The star cluster initial mass function is observed to have an inverse power law exponent around 2, y...
We present a suite of 3D multiphysics MHD simulations following star formation in isolated turbulent...
Supersonic gas turbulence is a ubiquitous property of the interstellar medium. The level of turbulen...
We present a set of hydrodynamical/N-body controlled simulations of isolated gas-rich galaxies that ...
We present a subgrid model for supernova feedback designed for simulations of galaxy formation. The ...
We study the dependence of fragmentation in massive gas-rich galaxy disks at z > 1 on stellar feedba...
We study the dependence of fragmentation in massive gas-rich galaxy disks at $z > 1$ on feedback ...
The final, definitive version of this paper has been published in Monthly Notices of the Royal Astro...
Impulsive supernova feedback and non-standard dark matter models, such as self-interacting dark matt...
Some stars are known to explode at the end of their lives, called supernovae (SNe). The substantial ...
Young stars typically form in star clusters, so the supernovae (SNe) they produce are clustered in s...
We present a suite of galaxy formation simulations that directly model star cluster formation and di...
Star formation and stellar feedback are interlinked processes that redistribute energy and matter th...
We present results from galaxy evolution simulations with a mutiphase Interstellar medium (ISM), a m...
We address a simple model where the Kennicutt-Schmidt (KS) relation between the macroscopic densitie...
The star cluster initial mass function is observed to have an inverse power law exponent around 2, y...
We present a suite of 3D multiphysics MHD simulations following star formation in isolated turbulent...
Supersonic gas turbulence is a ubiquitous property of the interstellar medium. The level of turbulen...
We present a set of hydrodynamical/N-body controlled simulations of isolated gas-rich galaxies that ...
We present a subgrid model for supernova feedback designed for simulations of galaxy formation. The ...
We study the dependence of fragmentation in massive gas-rich galaxy disks at z > 1 on stellar feedba...
We study the dependence of fragmentation in massive gas-rich galaxy disks at $z > 1$ on feedback ...
The final, definitive version of this paper has been published in Monthly Notices of the Royal Astro...
Impulsive supernova feedback and non-standard dark matter models, such as self-interacting dark matt...
Some stars are known to explode at the end of their lives, called supernovae (SNe). The substantial ...
Young stars typically form in star clusters, so the supernovae (SNe) they produce are clustered in s...