Classical theories for the stellar initial mass function (IMF) predict a peak mass that scales with the properties of the molecular cloud. In this work, we explore a new theory proposed by Lee and Hennebelle. The idea is that the tidal field around first Larson cores prevents the formation of other collapsing clumps within a certain radius. The protostar can then freely accrete the gas within this radius. This leads to a peak mass of roughly $10 \, M_{\mathrm{1LC}}$, independent of the parent cloud properties. Using simple analytical arguments, we derive a collapse condition for clumps located close to a protostar. We then study the tidal field and the corresponding collapse condition using a series of hydrodynamic simulations with self-gra...
Observations of normal galactic star-forming regions suggest there is widespread near-uniformity in ...
We explore how the expulsion of gas from star cluster forming cloud cores due to supernova explosion...
Massive stars (with mass m_* > 8 solar masses) are fundamental to the evolution of galaxies, because...
International audienceContext. Understanding the origin of the initial mass function (IMF) of stars ...
Context. Understanding the origin of the initial mass function (IMF) of stars is a major problem for...
International audienceThe stellar initial mass function plays a critical role in the history of our ...
The present paper extends our previous theory of the stellar initial mass function (IMF) by includin...
International audienceWe derive an analytical theory of the prestellar core initial mass function (I...
The origin of the stellar initial mass function (IMF) is a fundamental issue in the theory of star f...
Recent works have proposed the idea of a tidal screening scenario, in which tidal forces determine t...
Published onlineThis is the author accepted manuscript. The final version is available from Oxford U...
We propose a new model for the evolution of a star cluster’s system mass function (SMF). The model i...
Detailed knowledge of the initial distribution of stellar masses at birth (known as the initial mass...
It has been shown that fragmentation within self-gravitating, turbulent molecular clouds (‘turbulent...
This is the final version of the article. Available from IOP Publishing via the DOI in this record.W...
Observations of normal galactic star-forming regions suggest there is widespread near-uniformity in ...
We explore how the expulsion of gas from star cluster forming cloud cores due to supernova explosion...
Massive stars (with mass m_* > 8 solar masses) are fundamental to the evolution of galaxies, because...
International audienceContext. Understanding the origin of the initial mass function (IMF) of stars ...
Context. Understanding the origin of the initial mass function (IMF) of stars is a major problem for...
International audienceThe stellar initial mass function plays a critical role in the history of our ...
The present paper extends our previous theory of the stellar initial mass function (IMF) by includin...
International audienceWe derive an analytical theory of the prestellar core initial mass function (I...
The origin of the stellar initial mass function (IMF) is a fundamental issue in the theory of star f...
Recent works have proposed the idea of a tidal screening scenario, in which tidal forces determine t...
Published onlineThis is the author accepted manuscript. The final version is available from Oxford U...
We propose a new model for the evolution of a star cluster’s system mass function (SMF). The model i...
Detailed knowledge of the initial distribution of stellar masses at birth (known as the initial mass...
It has been shown that fragmentation within self-gravitating, turbulent molecular clouds (‘turbulent...
This is the final version of the article. Available from IOP Publishing via the DOI in this record.W...
Observations of normal galactic star-forming regions suggest there is widespread near-uniformity in ...
We explore how the expulsion of gas from star cluster forming cloud cores due to supernova explosion...
Massive stars (with mass m_* > 8 solar masses) are fundamental to the evolution of galaxies, because...