Add to ORKGHot cores are rich in saturated molecules that are believed to arise from the evaporation of molecular ices on dust grains. It is usually assumed that the ices are evaporated instantaneously when a nearby star is switched on. We have developed a new model in which the grain temperature rises over a time-scale determined by the switch-on time of the star. This time-scale is likely to be comparable to the lifetime of the hot cores. In consequence, evaporation of different species occurs at different epochs, leading to chemical differentiation in time and space within the hot core. By computing qualitative models of hot cores, we show that observations of hot cores may be able to constrain the rise time of hot stars to the main sequence
International audienceContext. Hot molecular cores (HMCs) are intermediate stages of high-mass star ...
We have modeled the chemistry that occurs in the envelopes surrounding newborn stars as they are gra...
The characteristic chemistry of hot cores arises from the abrupt evaporation of icy mantles when a m...
We have made self-consistent models of the density and temperature profiles of the gas and dust surr...
Hot cores and their precursors contain an integrated record of the physics of the collapse process i...
Warm cores (or hot corinos) around low-mass protostellar objects show a rich chem-istry with strong ...
Context. Hot molecular cores (HMCs) are intermediate stages of high-mass star formation an...
Context. While radiative cooling of interstellar grains is a well-known process, little detail is kn...
We present results from a time-dependent gas-phase chemical model of a hot core based on the physica...
International audienceContext. Hot molecular cores (HMCs) are intermediate stages of high-mass star ...
We present results from a time-dependent gas-phase chemical model of a hot core based on the physica...
Author Institution: L3AB Observatoire de Bordeaux; INAF-Osservatorio Astrofisico di Arcetri; LAOG, O...
Aims. We aim to simulate radial profiles of molecular abundances and the gas temperature in cold and...
We present results from a time-dependent gas-phase chemical model of a hot core based on the physica...
Context. Chemical models of dense cloud cores often utilize the so-called pseudo-time-dependent appr...
International audienceContext. Hot molecular cores (HMCs) are intermediate stages of high-mass star ...
We have modeled the chemistry that occurs in the envelopes surrounding newborn stars as they are gra...
The characteristic chemistry of hot cores arises from the abrupt evaporation of icy mantles when a m...
We have made self-consistent models of the density and temperature profiles of the gas and dust surr...
Hot cores and their precursors contain an integrated record of the physics of the collapse process i...
Warm cores (or hot corinos) around low-mass protostellar objects show a rich chem-istry with strong ...
Context. Hot molecular cores (HMCs) are intermediate stages of high-mass star formation an...
Context. While radiative cooling of interstellar grains is a well-known process, little detail is kn...
We present results from a time-dependent gas-phase chemical model of a hot core based on the physica...
International audienceContext. Hot molecular cores (HMCs) are intermediate stages of high-mass star ...
We present results from a time-dependent gas-phase chemical model of a hot core based on the physica...
Author Institution: L3AB Observatoire de Bordeaux; INAF-Osservatorio Astrofisico di Arcetri; LAOG, O...
Aims. We aim to simulate radial profiles of molecular abundances and the gas temperature in cold and...
We present results from a time-dependent gas-phase chemical model of a hot core based on the physica...
Context. Chemical models of dense cloud cores often utilize the so-called pseudo-time-dependent appr...
International audienceContext. Hot molecular cores (HMCs) are intermediate stages of high-mass star ...
We have modeled the chemistry that occurs in the envelopes surrounding newborn stars as they are gra...
The characteristic chemistry of hot cores arises from the abrupt evaporation of icy mantles when a m...