Add to ORKGWe investigate differences in the molecular abundances between magnetically super- and subcritical pre-stellar cores, performing three-dimensional non-ideal magnetohydrodynamical (MHD) simulations with varying densities and magnetic field strengths, and post-processing the results with a time-dependent gas–grain chemical code. Most molecular species show significantly more central depletion in subcritical models, due to the longer duration of collapse. However, the directly observable quantities – the molecule to hydrogen column density ratios – are generally too similar for observational data to discriminate between models. The profiles of N2H+ and HCO+ show qualitative differences between supercritical and subcritical models on scales of ...
Interstellar molecular clouds are generally believed to be the sites of active star formation in our...
Context. Pre-stellar cores (PSCs) are units of star formation. Besides representing early stages of ...
Sun-like stars form from the contraction of cold and dense interstellar clouds. How the collapse pro...
We investigate differences in the molecular abundances between magnetically super- and subcritical p...
Direct observational measurements of the magnetic field strength in prestellar cores typically find ...
Determining the importance of magnetic fields in star-forming environments is hampered by the diffic...
We have coupled a chemical model with two dynamical models of collapsing low mass star-forming cores...
Ambipolar diffusion likely plays a pivotal role in the formation and evolution of dense cores in wea...
We develop a detailed chemical network relevant to calculate the conditions that are characteristic ...
This is the author accepted manuscript. The final version is available from the publisher via the DO...
We have compared molecular line emission to dust continuum emission and modeled molecular lines usin...
International audienceWe develop a detailed chemical network relevant to calculate the conditions th...
We develop analytic approximations to the density evolution of prestellar cores, based on the result...
We have performed fully three-dimensional magneto-hydrodynamic simulations of collapsing core format...
International audienceWe investigate the formation and evolution of giant molecular clouds (GMCs) by...
Interstellar molecular clouds are generally believed to be the sites of active star formation in our...
Context. Pre-stellar cores (PSCs) are units of star formation. Besides representing early stages of ...
Sun-like stars form from the contraction of cold and dense interstellar clouds. How the collapse pro...
We investigate differences in the molecular abundances between magnetically super- and subcritical p...
Direct observational measurements of the magnetic field strength in prestellar cores typically find ...
Determining the importance of magnetic fields in star-forming environments is hampered by the diffic...
We have coupled a chemical model with two dynamical models of collapsing low mass star-forming cores...
Ambipolar diffusion likely plays a pivotal role in the formation and evolution of dense cores in wea...
We develop a detailed chemical network relevant to calculate the conditions that are characteristic ...
This is the author accepted manuscript. The final version is available from the publisher via the DO...
We have compared molecular line emission to dust continuum emission and modeled molecular lines usin...
International audienceWe develop a detailed chemical network relevant to calculate the conditions th...
We develop analytic approximations to the density evolution of prestellar cores, based on the result...
We have performed fully three-dimensional magneto-hydrodynamic simulations of collapsing core format...
International audienceWe investigate the formation and evolution of giant molecular clouds (GMCs) by...
Interstellar molecular clouds are generally believed to be the sites of active star formation in our...
Context. Pre-stellar cores (PSCs) are units of star formation. Besides representing early stages of ...
Sun-like stars form from the contraction of cold and dense interstellar clouds. How the collapse pro...