Add to ORKGExperience with core-collapse supernova simulations shows that accurate accounting of total particle number and 4-momentum can be a challenge for computational radiative transfer. This accurate accounting would be facilitated by the use of particle number and 4-momentum transport equations that allow transparent conversion between volume and surface integrals in both configuration and momentum space. Such conservative formulations of general relativistic kinetic theory in multiple spatial dimensions are presented in this paper, and their relevance to core-collapse supernova simulations is described
Context. Modeling core-collapse supernovae (SNe) with neutrino transport in three dimensions (3D) re...
In spherical symmetry, very reliable models of stellar core collapse, bounce, and the postbounce pha...
The effects of general relativity (GR) on the hydrodynamics and neutrino transport are examined duri...
Many astrophysical phenomena exhibit relativistic radiative flows. While velocities in excess of $v ...
Relativistic kinetic theory has widespread application in astrophysics and cosmology. The interest h...
The description of general relativistic radiation hydrodynamics in spherical symmetry is presented i...
Neutrinos dominate the energetics of core-collapse supernovae, and are believed to play an important...
The mechanism driving core-collapse supernovae is sensitive to the interplay between matter and neut...
In this research, the validity of using an effective potential to approximate general relativistic e...
The general relativistic equations of stellar structure and evolution are reformulated in a notation...
We present self-consistent general relativistic simulations of stellar core collapse, bounce, and po...
The general relativistic equations of stellar structure and evolution are reformulated in a notation...
Core-collapse supernovae (CCSNe) are intrinsically multi-scale, multi-physics and multi-dimensional ...
We apply our recently developed code for spherically symmetric, fully general relativistic (GR) Lagr...
The merger of two neutron stars produces a neutron-rich outflow of >0.01 solar masses. This eject...
Context. Modeling core-collapse supernovae (SNe) with neutrino transport in three dimensions (3D) re...
In spherical symmetry, very reliable models of stellar core collapse, bounce, and the postbounce pha...
The effects of general relativity (GR) on the hydrodynamics and neutrino transport are examined duri...
Many astrophysical phenomena exhibit relativistic radiative flows. While velocities in excess of $v ...
Relativistic kinetic theory has widespread application in astrophysics and cosmology. The interest h...
The description of general relativistic radiation hydrodynamics in spherical symmetry is presented i...
Neutrinos dominate the energetics of core-collapse supernovae, and are believed to play an important...
The mechanism driving core-collapse supernovae is sensitive to the interplay between matter and neut...
In this research, the validity of using an effective potential to approximate general relativistic e...
The general relativistic equations of stellar structure and evolution are reformulated in a notation...
We present self-consistent general relativistic simulations of stellar core collapse, bounce, and po...
The general relativistic equations of stellar structure and evolution are reformulated in a notation...
Core-collapse supernovae (CCSNe) are intrinsically multi-scale, multi-physics and multi-dimensional ...
We apply our recently developed code for spherically symmetric, fully general relativistic (GR) Lagr...
The merger of two neutron stars produces a neutron-rich outflow of >0.01 solar masses. This eject...
Context. Modeling core-collapse supernovae (SNe) with neutrino transport in three dimensions (3D) re...
In spherical symmetry, very reliable models of stellar core collapse, bounce, and the postbounce pha...
The effects of general relativity (GR) on the hydrodynamics and neutrino transport are examined duri...