A crucial aspect of 3D Monte Carlo radiative transfer is the choice of the spatial grid used to partition the dusty medium. We critically investigate the use of octree grids in Monte Carlo dust radiative transfer, with two different octree construction algorithms (regular and barycentric subdivision) and three different octree traversal algorithms (top-down, neighbour list, and the bookkeeping method). In general, regular octree grids need higher levels of subdivision compared to the barycentric grids for a fixed maximum cell mass threshold criterion. The total number of grid cells, however, depends on the geometry of the model. Surprisingly, regular octree grid simulations turn out to be 10 to 20% more efficient in run time than the baryce...
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society....
Context. Thermal dust emission carries information on physical conditions and dust properties in man...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
A crucial aspect of 3D Monte Carlo radiative transfer is the choice of the spatial grid used to part...
A crucial aspect of 3D Monte Carlo radiative transfer is the choice of the spatial grid used to part...
Context. A crucial ingredient for numerically solving the three-dimensional radiative transfer probl...
International audienceIn this work, we study quantitatively the efficiency of a Monte Carlo techniqu...
Context. Probing the structure of complex astrophysical objects requires effective three-dimensional...
Context. Continuum radiative-transfer simulations are necessary for the interpretation of observatio...
We combine a Monte Carlo radiative transfer code with an SPH code, so that – assuming thermal equil...
Radiative transfer is a notoriously difficult and computationally demanding problem. Yet, it is an i...
Three-dimensional radiative transfer calculations involve extensive amounts of computation. These ca...
Context. Radiative transfer modelling of expanding stellar envelopes is an important task in their a...
We present an updated version of SKIRT, a 3D Monte Carlo radiative transfer code developed to simula...
Two ways to reduce the computational requirements of radiative heat transfer Monte Carlo simulation ...
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society....
Context. Thermal dust emission carries information on physical conditions and dust properties in man...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
A crucial aspect of 3D Monte Carlo radiative transfer is the choice of the spatial grid used to part...
A crucial aspect of 3D Monte Carlo radiative transfer is the choice of the spatial grid used to part...
Context. A crucial ingredient for numerically solving the three-dimensional radiative transfer probl...
International audienceIn this work, we study quantitatively the efficiency of a Monte Carlo techniqu...
Context. Probing the structure of complex astrophysical objects requires effective three-dimensional...
Context. Continuum radiative-transfer simulations are necessary for the interpretation of observatio...
We combine a Monte Carlo radiative transfer code with an SPH code, so that – assuming thermal equil...
Radiative transfer is a notoriously difficult and computationally demanding problem. Yet, it is an i...
Three-dimensional radiative transfer calculations involve extensive amounts of computation. These ca...
Context. Radiative transfer modelling of expanding stellar envelopes is an important task in their a...
We present an updated version of SKIRT, a 3D Monte Carlo radiative transfer code developed to simula...
Two ways to reduce the computational requirements of radiative heat transfer Monte Carlo simulation ...
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society....
Context. Thermal dust emission carries information on physical conditions and dust properties in man...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...