We address the problem of the origin of massive stars, namely the origin, path, and timescale of the mass flows that create them. Based on extensive numerical simulations, we propose a scenario where massive stars are assembled by large-scale, converging, inertial flows that naturally occur in supersonic turbulence. We refer to this scenario of massive-star formation as the inertial-inflow model. This model stems directly from the idea that the mass distribution of stars is primarily the result of turbulent fragmentation. Under this hypothesis, the statistical properties of turbulence determine the formation timescale and mass of prestellar cores, posing definite constraints on the formation mechanism of massive stars. We quantify such cons...
Massive stars (with mass m_* > 8 solar masses) are fundamental to the evolution of galaxies, because...
In an earlier paper, we used smoothed particle hydrodynamics (SPH) simulations to explore star forma...
The injection of energy and momentum into the interstellar medium by young massive stars’ intense ra...
We address the problem of the origin of massive stars, namely the origin, path, and timescale of the...
I review the status of massive star formation theories: accretion from collapsing, massive, turbulen...
Observations indicate that massive stars in the Galaxy form in regions of very high surface density,...
The formation mechanism of massive stars remains one of the main open problems in astrophysics, in p...
We briefly describe the three existing scenarios for forming massive stars and emphasize that the ar...
In this review, I present the case for how massive stars may form through stellar collisions. This m...
We investigate the physical processes that lead to the formation of massive stars. Using a numerical...
We show that massive stars and stellar clusters are formed simultaneously, the global evolution of t...
We investigate the physical processes which lead to the formation of massive stars. Using a numerica...
Introduction One of the most durable problems in all of astrophysics is how stars are formed. Since...
This is the final version of the article. Available from IOP Publishing via the DOI in this record.W...
Turbulence is thought to be a primary driving force behind the early stages of star formation. In th...
Massive stars (with mass m_* > 8 solar masses) are fundamental to the evolution of galaxies, because...
In an earlier paper, we used smoothed particle hydrodynamics (SPH) simulations to explore star forma...
The injection of energy and momentum into the interstellar medium by young massive stars’ intense ra...
We address the problem of the origin of massive stars, namely the origin, path, and timescale of the...
I review the status of massive star formation theories: accretion from collapsing, massive, turbulen...
Observations indicate that massive stars in the Galaxy form in regions of very high surface density,...
The formation mechanism of massive stars remains one of the main open problems in astrophysics, in p...
We briefly describe the three existing scenarios for forming massive stars and emphasize that the ar...
In this review, I present the case for how massive stars may form through stellar collisions. This m...
We investigate the physical processes that lead to the formation of massive stars. Using a numerical...
We show that massive stars and stellar clusters are formed simultaneously, the global evolution of t...
We investigate the physical processes which lead to the formation of massive stars. Using a numerica...
Introduction One of the most durable problems in all of astrophysics is how stars are formed. Since...
This is the final version of the article. Available from IOP Publishing via the DOI in this record.W...
Turbulence is thought to be a primary driving force behind the early stages of star formation. In th...
Massive stars (with mass m_* > 8 solar masses) are fundamental to the evolution of galaxies, because...
In an earlier paper, we used smoothed particle hydrodynamics (SPH) simulations to explore star forma...
The injection of energy and momentum into the interstellar medium by young massive stars’ intense ra...