The influence of a dust grain mixture consisting of spherical dust grains with different radii and/or chemical composition on the resulting temperature structure and spectral energy distribution of a circumstellar shell is investigated. The comparison with the results based on an approximation of dust grain parameters representing the mean optical properties of the corresponding dust grain mixture reveal that (1) the temperature dispersion of a real dust grain mixture decreases substantially with increasing optical depth, converging towards the temperature distribution resulting from the approximation of mean dust grain parameters, and (2) the resulting spectral energy distributions do not differ by more than 10% if >= 2^5 grain sizes are c...
We model dust around Herbig Ae/Be stars using a radiative transfer model for multiple isothermal cir...
In this paper, we present a refined Monte Carlo method for the solution of multi-dimensional radiat...
Context. Dust emission is increasingly used as a tracer of the mass in the interstellar medium. With...
International audienceAccurate temperature calculations for circumstellar disks are particularly imp...
Abstract. A spherically symmetric dust radiative transfer code is used to model the circumstellar du...
Context. Thermal emission by stochastically heated dust grains (SHGs) plays an important role in the...
We model the thermal effect of young stars on their surrounding environment in order to understand c...
Context. Dust grains absorb the interstellar far ultra-violet and visible photons and re-e...
Context. Thermal emission by stochastically heated dust grains (SHGs) plays an important role in the...
Context. The size and chemical composition of interstellar dust grains are critical in setting the d...
accepted by A&A, abstract modified to match arXiv standardsThe size and composition of dust grains a...
We model dust around Herbig Ae/Be stars using a radiative transfer model for multiple isothermal cir...
In this paper, we present a refined Monte Carlo method for the solution of multi-dimensional radiat...
Context. Dust emission is increasingly used as a tracer of the mass in the interstellar medium. With...
International audienceAccurate temperature calculations for circumstellar disks are particularly imp...
Abstract. A spherically symmetric dust radiative transfer code is used to model the circumstellar du...
Context. Thermal emission by stochastically heated dust grains (SHGs) plays an important role in the...
We model the thermal effect of young stars on their surrounding environment in order to understand c...
Context. Dust grains absorb the interstellar far ultra-violet and visible photons and re-e...
Context. Thermal emission by stochastically heated dust grains (SHGs) plays an important role in the...
Context. The size and chemical composition of interstellar dust grains are critical in setting the d...
accepted by A&A, abstract modified to match arXiv standardsThe size and composition of dust grains a...
We model dust around Herbig Ae/Be stars using a radiative transfer model for multiple isothermal cir...
In this paper, we present a refined Monte Carlo method for the solution of multi-dimensional radiat...
Context. Dust emission is increasingly used as a tracer of the mass in the interstellar medium. With...