Aims. We present the first simulations of the formation and feedback of massive stars which account for radiation forces as well as photoionization feedback (along with protostellar outflows). In two different accretion scenarios modeled, we determine the relative strength of these feedback components and derive the size of the reservoir from which the forming stars gained their masses. Methods. We performed direct hydrodynamics simulations of the gravitational collapse of high-density mass reservoirs toward the formation of massive stars including self-gravity, stellar evolution, protostellar outflows, continuum radiation transport, photoionization, and the potential impact of ram pressure from large-scale gravitational infall. For dir...
We have developed a simplified method of treating the radiative acceleration of dusty flows. This me...
We present a smoothed particle hydrodynamics parameter study of the dynamical effect of photoionizat...
In this thesis, I develop a new method of treating the problem of radiative transfer around a formin...
Aims. We present the first simulations of the formation and feedback of massive stars which account ...
Abstract: We investigate the radiation pressure feedback in the formation of massive stars in 1, 2, ...
We present radiation hydrodynamic simulations of the collapse of massive pre-stellar cores. We treat...
We present radiation hydrodynamics simulations of the collapse of massive pre-stellar cores. We trea...
I investigate the radiation pressure problem in the formation of massive stars using a newly develop...
We report the results of a series of AMR radiation-hydrodynamic simulations of the collapse of massi...
We report the results of a series of AMR radiation-hydrodynamic simulations of the collapse of massi...
The injection of energy and momentum into the interstellar medium by young massive stars’ intense ra...
Massive protostars attain high luminosities as they are actively accreting and the radiation pressur...
Stellar feedback in the form of radiation pressure and magnetically driven collimated outflows may l...
We use hydrodynamic simulations with detailed, explicit models for stellar feedback to study galaxy ...
We conduct a theoretical study of the formation of massive stars over a wide range of metallicities ...
We have developed a simplified method of treating the radiative acceleration of dusty flows. This me...
We present a smoothed particle hydrodynamics parameter study of the dynamical effect of photoionizat...
In this thesis, I develop a new method of treating the problem of radiative transfer around a formin...
Aims. We present the first simulations of the formation and feedback of massive stars which account ...
Abstract: We investigate the radiation pressure feedback in the formation of massive stars in 1, 2, ...
We present radiation hydrodynamic simulations of the collapse of massive pre-stellar cores. We treat...
We present radiation hydrodynamics simulations of the collapse of massive pre-stellar cores. We trea...
I investigate the radiation pressure problem in the formation of massive stars using a newly develop...
We report the results of a series of AMR radiation-hydrodynamic simulations of the collapse of massi...
We report the results of a series of AMR radiation-hydrodynamic simulations of the collapse of massi...
The injection of energy and momentum into the interstellar medium by young massive stars’ intense ra...
Massive protostars attain high luminosities as they are actively accreting and the radiation pressur...
Stellar feedback in the form of radiation pressure and magnetically driven collimated outflows may l...
We use hydrodynamic simulations with detailed, explicit models for stellar feedback to study galaxy ...
We conduct a theoretical study of the formation of massive stars over a wide range of metallicities ...
We have developed a simplified method of treating the radiative acceleration of dusty flows. This me...
We present a smoothed particle hydrodynamics parameter study of the dynamical effect of photoionizat...
In this thesis, I develop a new method of treating the problem of radiative transfer around a formin...