Add to ORKGWe analyze a three-dimensional smoothed particle hydrodynamics simulation of an evolving and later collapsing prestellar core. Using a three-dimensional continuum radiative transfer program, we generate images at 7 mum, 15 mum, 175 mum, and 1.3 mm for different evolutionary times and viewing angles. We discuss the observability of the properties of prestellar cores for the different wavelengths. For examples of nonsymmetric fragments, it is shown that, misleadingly, the density profiles derived from a one-dimensional analysis of the corresponding images are consistent with one-dimensional core evolution models. We conclude that one-dimensional modeling based on column density interpretation of images doe...
International audienceContext. Star formation begins with the gravitational collapse of a d...
Context. Lacking a paradigm for the onset of star formation, it is important to derive bas...
We use our Monte Carlo radiative transfer code to study non-embedded prestellar cores and cores that...
We analyze a three-dimensional smoothed particle hydrodynamics simulation of an evolving and later c...
Radiative transfer is introduced as one of the grand challenge problems in astrophysics due to its k...
Constraints on the density and thermal 3D structure of the dense molecular cloud core rho Oph D ar...
We present 2D Monte Carlo radiative transfer simulations of prestellar cores. We consider two types ...
We present the first non-LTE, co-moving frame molecular line calculations of a star-forming cluster ...
International audienceConstraints on the density and thermal 3D structure of the dense molecular clo...
Constraints on the density and thermal 3D structure of the dense molecular cloud core ρ Oph D are d...
Context. Radiative transfer plays a major role in the process of star formation, the details of whic...
We present a study of the pre-protostellar core (PPC) L1498. A series of self-consistent, three-dime...
We implement a Monte Carlo radiative transfer method, that uses a large number of monochromatic lumi...
Context. Both observations and simulations of embedded protostars have progressed rapidly in recent ...
Context. Star formation begins with the gravitational collapse of a dense core inside a mo...
International audienceContext. Star formation begins with the gravitational collapse of a d...
Context. Lacking a paradigm for the onset of star formation, it is important to derive bas...
We use our Monte Carlo radiative transfer code to study non-embedded prestellar cores and cores that...
We analyze a three-dimensional smoothed particle hydrodynamics simulation of an evolving and later c...
Radiative transfer is introduced as one of the grand challenge problems in astrophysics due to its k...
Constraints on the density and thermal 3D structure of the dense molecular cloud core rho Oph D ar...
We present 2D Monte Carlo radiative transfer simulations of prestellar cores. We consider two types ...
We present the first non-LTE, co-moving frame molecular line calculations of a star-forming cluster ...
International audienceConstraints on the density and thermal 3D structure of the dense molecular clo...
Constraints on the density and thermal 3D structure of the dense molecular cloud core ρ Oph D are d...
Context. Radiative transfer plays a major role in the process of star formation, the details of whic...
We present a study of the pre-protostellar core (PPC) L1498. A series of self-consistent, three-dime...
We implement a Monte Carlo radiative transfer method, that uses a large number of monochromatic lumi...
Context. Both observations and simulations of embedded protostars have progressed rapidly in recent ...
Context. Star formation begins with the gravitational collapse of a dense core inside a mo...
International audienceContext. Star formation begins with the gravitational collapse of a d...
Context. Lacking a paradigm for the onset of star formation, it is important to derive bas...
We use our Monte Carlo radiative transfer code to study non-embedded prestellar cores and cores that...