A large fraction of the gas in the Galaxy is cold, dense, and molecular. If all this gas collapsed under the influence of gravity and formed stars in a local free-fall time, the star formation rate in the Galaxy would exceed that observed by more than an order of magnitude. Other star-forming galaxies behave similarly. Yet, observations and simulations both suggest that the molecular gas is indeed gravitationally collapsing, albeit hierarchically. Prompt stellar feedback offers a potential solution to the low observed star formation rate if it quickly disrupts star-forming clouds during gravitational collapse. However, this requires that molecular clouds must be short-lived objects, raising the question of how so much gas can be observed in...
Observation shows that nebular emission, molecular gas, and young stars in giant galaxies are associ...
In Part I, I examine the dynamics of giant molecular clouds through simplified semianalytic models. ...
Feedback from massive stars plays a key role in molecular cloud evolution. After the onset of star f...
International audienceIn Meidt et al., we showed that gas kinematics on the scale of individual mole...
In Meidt et al., we showed that gas kinematics on the scale of individual molecular clouds are not e...
The physics of star formation and the deposition of mass, momentum and energy into the interstellar ...
We study the formation of giant dense cloud complexes and of stars within them using SPH numerical s...
The fact that observed star-forming galaxies convert their gas into stars inefficiently posits a lon...
Molecular clouds have been generally considered to be dense virialized structures in the interstella...
Star formation is inefficient. Only a fewper cent of the available gas in molecular clouds forms sta...
We present the results of a numerical simulation in which star formation proceeds from an initially ...
The lifetime of a Giant Molecular Cloud (GMC) and the total mass of stars that form within it are cr...
We present a two-zone theory for feedback-regulated star formation in galactic discs, consistently c...
Star formation is a complex process and constitutes one of the basic problems of astrophysics. Most ...
The formation of stars remains an outstanding unsolved problem in astrophysics. Central to this pro...
Observation shows that nebular emission, molecular gas, and young stars in giant galaxies are associ...
In Part I, I examine the dynamics of giant molecular clouds through simplified semianalytic models. ...
Feedback from massive stars plays a key role in molecular cloud evolution. After the onset of star f...
International audienceIn Meidt et al., we showed that gas kinematics on the scale of individual mole...
In Meidt et al., we showed that gas kinematics on the scale of individual molecular clouds are not e...
The physics of star formation and the deposition of mass, momentum and energy into the interstellar ...
We study the formation of giant dense cloud complexes and of stars within them using SPH numerical s...
The fact that observed star-forming galaxies convert their gas into stars inefficiently posits a lon...
Molecular clouds have been generally considered to be dense virialized structures in the interstella...
Star formation is inefficient. Only a fewper cent of the available gas in molecular clouds forms sta...
We present the results of a numerical simulation in which star formation proceeds from an initially ...
The lifetime of a Giant Molecular Cloud (GMC) and the total mass of stars that form within it are cr...
We present a two-zone theory for feedback-regulated star formation in galactic discs, consistently c...
Star formation is a complex process and constitutes one of the basic problems of astrophysics. Most ...
The formation of stars remains an outstanding unsolved problem in astrophysics. Central to this pro...
Observation shows that nebular emission, molecular gas, and young stars in giant galaxies are associ...
In Part I, I examine the dynamics of giant molecular clouds through simplified semianalytic models. ...
Feedback from massive stars plays a key role in molecular cloud evolution. After the onset of star f...