We investigate the influence of scattering and geometry on the attenuation curve in disc galaxies. We investigate both qualitatively and quantitatively which errors are made by either neglecting or approximating scattering, and which uncertainties are introduced as a result of a simplification of the star-dust geometry. We find that the magnitude of these errors depends on the inclination of the galaxy and, in particular, that, for face-on galaxies, the errors due to improper treatment of scattering dominate those due to imprecise star-dust geometry. Therefore we argue that, in all methods aimed at determining the opacity of disc galaxies, scattering should be taken into account in a proper way
We investigate the accuracy of an approximate radiative transfer technique that was first proposed b...
Using detailed Monte Carlo radiative transfer modeling, we examine the effects of absorption and sca...
We present new calculations of the attenuation of stellar light from spiral galaxies using geometrie...
We investigate the influence of scattering and geometry on the attenuation curve in disc galaxies. W...
Accurate photometric and kinematic modelling of disc galaxies requires the inclusion of radiative tr...
Combining Monte Carlo radiative transfer simulations and accurate 2D bulge/disc decompositions, we p...
The dust in galaxies makes radiation transport calculations in them absolutely necessary. It is not ...
Dust has been detected in high-redshift (z > 5) galaxies but its origin is still being debated. Dust...
We present skirt (Stellar Kinematics Including Radiative Transfer), a new Monte Carlo radiative tran...
We present skirt (Stellar Kinematics Including Radiative Transfer), a new Monte Carlo radiative tran...
We present SKIRT (Stellar Kinematics Including Radiative Transfer), a new Monte Carlo radiative tran...
We present results of new Monte Carlo calculations made with the DIRTY code of radiative transfer of...
We investigate the effects of multiple anisotropic light scattering by interstellar dust particles o...
While galactic bulges may contain no significant dust of their own, the dust within galaxy discs can...
We present a new approach to investigate the content and spatial distribution of dust in structurall...
We investigate the accuracy of an approximate radiative transfer technique that was first proposed b...
Using detailed Monte Carlo radiative transfer modeling, we examine the effects of absorption and sca...
We present new calculations of the attenuation of stellar light from spiral galaxies using geometrie...
We investigate the influence of scattering and geometry on the attenuation curve in disc galaxies. W...
Accurate photometric and kinematic modelling of disc galaxies requires the inclusion of radiative tr...
Combining Monte Carlo radiative transfer simulations and accurate 2D bulge/disc decompositions, we p...
The dust in galaxies makes radiation transport calculations in them absolutely necessary. It is not ...
Dust has been detected in high-redshift (z > 5) galaxies but its origin is still being debated. Dust...
We present skirt (Stellar Kinematics Including Radiative Transfer), a new Monte Carlo radiative tran...
We present skirt (Stellar Kinematics Including Radiative Transfer), a new Monte Carlo radiative tran...
We present SKIRT (Stellar Kinematics Including Radiative Transfer), a new Monte Carlo radiative tran...
We present results of new Monte Carlo calculations made with the DIRTY code of radiative transfer of...
We investigate the effects of multiple anisotropic light scattering by interstellar dust particles o...
While galactic bulges may contain no significant dust of their own, the dust within galaxy discs can...
We present a new approach to investigate the content and spatial distribution of dust in structurall...
We investigate the accuracy of an approximate radiative transfer technique that was first proposed b...
Using detailed Monte Carlo radiative transfer modeling, we examine the effects of absorption and sca...
We present new calculations of the attenuation of stellar light from spiral galaxies using geometrie...