Context. The radiative transport of photons through arbitrary three-dimensional (3D) structures of dust is a challenging problem due to the anisotropic scattering of dust grains and strong coupling between different spatial regions. The radiative transfer problem in 3D is solved using Monte Carlo or Ray Tracing techniques as no full analytic solution exists for the true 3D structures. Aims. We provide the first 3D dust radiative transfer benchmark composed of a slab of dust with uniform density externally illuminated by a star. This simple 3D benchmark is explicitly formulated to provide tests of the different components of the radiative transfer problem including dust absorption, scattering, and emission. Methods. The details of the exte...
We present DART-Ray, a new ray-tracing 3D dust radiative transfer (RT) code designed specifically to...
3D continuum radiative transfer is one of the remaining grand challenge problems in computational as...
In this work, we characterize the contributions from both ongoing star formation and the ambient rad...
Context. The radiative transport of photons through arbitrary three-dimensional (3D) structures of d...
Context. The radiative transport of photons through arbitrary three-dimensional (3D) structures of d...
International audienceContext. The radiative transport of photons through arbitrary three-dimensiona...
Context. The radiative transport of photons through arbitrary three-dimensional (3D) structures of d...
Cosmic dust is present in many astrophysical objects, and recent observations across the electromagn...
This is the author accepted manuscript. The final version is available from EDP Sciences via the DOI...
Abstract. A major difficulty hampering the accuracy of UV/optical star formation rate tracers is the...
In this paper and a companion paper we present the DIRTY model, a Monte Carlo radiative transfer cod...
Context. Thermal emission by stochastically heated dust grains (SHGs) plays an important role in the...
A revised and greatly improved version of the 3D continuum radiative transfer code MC3D is presented...
This contribution focuses on the current state-of-play in multi-dimensional continuum radiative tran...
Understanding the properties of stellar populations and interstellar dust has important implications...
We present DART-Ray, a new ray-tracing 3D dust radiative transfer (RT) code designed specifically to...
3D continuum radiative transfer is one of the remaining grand challenge problems in computational as...
In this work, we characterize the contributions from both ongoing star formation and the ambient rad...
Context. The radiative transport of photons through arbitrary three-dimensional (3D) structures of d...
Context. The radiative transport of photons through arbitrary three-dimensional (3D) structures of d...
International audienceContext. The radiative transport of photons through arbitrary three-dimensiona...
Context. The radiative transport of photons through arbitrary three-dimensional (3D) structures of d...
Cosmic dust is present in many astrophysical objects, and recent observations across the electromagn...
This is the author accepted manuscript. The final version is available from EDP Sciences via the DOI...
Abstract. A major difficulty hampering the accuracy of UV/optical star formation rate tracers is the...
In this paper and a companion paper we present the DIRTY model, a Monte Carlo radiative transfer cod...
Context. Thermal emission by stochastically heated dust grains (SHGs) plays an important role in the...
A revised and greatly improved version of the 3D continuum radiative transfer code MC3D is presented...
This contribution focuses on the current state-of-play in multi-dimensional continuum radiative tran...
Understanding the properties of stellar populations and interstellar dust has important implications...
We present DART-Ray, a new ray-tracing 3D dust radiative transfer (RT) code designed specifically to...
3D continuum radiative transfer is one of the remaining grand challenge problems in computational as...
In this work, we characterize the contributions from both ongoing star formation and the ambient rad...