We model the thermal effect of young stars on their surrounding environment in order to understand clustered star formation. We take radiative heating of dust, dust-gas collisional heating, cosmic-ray heating, and molecular cooling into account. Using DUSTY, a spherical continuum radiative transfer code, we model the dust temperature distribution around young stellar objects with various luminosities and surrounding gas and dust density distributions. We have created a grid of dust temperature models, based on our modeling with DUSTY, which we can use to calculate the dust temperature in a field of stars with various parameters. We then determine the gas temperature assuming energy balance. Our models can be used to make large-scale simulat...
We explore the relationship between gas and dust in massive star-forming regions by comparing the ph...
Aims: Within the framework of the DustPedia project we investigate the properties of cosmic dust and...
Abstract only availableMost stars in the universe, ~95%, are low to intermediate mass stars (LIMS), ...
We model the thermal effect of young stars on their surrounding environment in order to understand c...
textThe effect of dust/gas heating and cooling is shown to have a significant effect on the process ...
Dust and gas energetics are incorporated into a cluster-scale simulation of star formation in order ...
Dust and gas energetics are incorporated into a cluster-scale simulation of star formation in order ...
We investigate the effect of heating by luminosity sources in a simulation of clustered star formati...
This paper reports on computational evidence for the formation of cloud-like dust structures around...
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society ...
We explore the relationship between gas and dust in a massive star-forming region by comparing the p...
Context. Dust grains absorb the interstellar far ultra-violet and visible photons and re-e...
Context. Stars form by the gravitational collapse of cold and dense molecular cloud cores....
We present a novel framework to self-consistently model the effects of radiation fields, dust physic...
The temperature of interstellar dust particles is of great importance to astronomers. It plays a cru...
We explore the relationship between gas and dust in massive star-forming regions by comparing the ph...
Aims: Within the framework of the DustPedia project we investigate the properties of cosmic dust and...
Abstract only availableMost stars in the universe, ~95%, are low to intermediate mass stars (LIMS), ...
We model the thermal effect of young stars on their surrounding environment in order to understand c...
textThe effect of dust/gas heating and cooling is shown to have a significant effect on the process ...
Dust and gas energetics are incorporated into a cluster-scale simulation of star formation in order ...
Dust and gas energetics are incorporated into a cluster-scale simulation of star formation in order ...
We investigate the effect of heating by luminosity sources in a simulation of clustered star formati...
This paper reports on computational evidence for the formation of cloud-like dust structures around...
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society ...
We explore the relationship between gas and dust in a massive star-forming region by comparing the p...
Context. Dust grains absorb the interstellar far ultra-violet and visible photons and re-e...
Context. Stars form by the gravitational collapse of cold and dense molecular cloud cores....
We present a novel framework to self-consistently model the effects of radiation fields, dust physic...
The temperature of interstellar dust particles is of great importance to astronomers. It plays a cru...
We explore the relationship between gas and dust in massive star-forming regions by comparing the ph...
Aims: Within the framework of the DustPedia project we investigate the properties of cosmic dust and...
Abstract only availableMost stars in the universe, ~95%, are low to intermediate mass stars (LIMS), ...