We present the latest development of the disk gravitational instability and fragmentation model, originally introduced by us to explain episodic accretion bursts in the early stages of star formation. Using our numerical hydrodynamics model with improved disk thermal balance and star-disk interaction, we computed the evolution of protostellar disks formed from the gravitational collapse of prestellar cores. In agreement with our previous studies, we find that cores of higher initial mass and angular momentum produce disks that are more favorable to gravitational instability and fragmentation, while a higher background irradiation and magnetic fields moderate the disk tendency to fragment. The protostellar accretion in our models is time-var...
We investigate the collapse and fragmentation of low-mass, trans-sonically turbulent pre-stellar cor...
We study rapidly accreting, gravitationally unstable disks with a series of idealized global, numeri...
Self-gravitating protostellar discs are unstable to fragmentation if the gas can cool on a time scal...
Aims. We investigate the dynamics of gaseous clumps formed via gravitational fragmentation in young ...
It is speculated that the accretion of material onto young protostars is episodic. We present a comp...
A star acquires much of its mass by accreting material from a disk. Accretion is probably not contin...
We study protoplanetary disc evolution assuming that angular momentum transport is driven by gravita...
We characterize the infall rate onto protostellar systems forming in self-gravitating radiation-hydr...
Although it is fairly established that Gravitational Instability (GI) should occur in the early phas...
Context. There is growing evidence that massive stars grow by disk accretion in a similar way to the...
Observations show a large spread in the luminosities of young protostars, which are frequently expla...
We analyse the time evolution of the luminosity of a cluster of Population III protostars formed in ...
We develop a semi-analytic formalism for the determination of the evolution of the stellar mass accr...
Aims. Migration of dense gaseous clumps that form in young protostellar disks via gravitational frag...
Aims. The central region of a circumstellar disk is difficult to resolve in global numerical simulat...
We investigate the collapse and fragmentation of low-mass, trans-sonically turbulent pre-stellar cor...
We study rapidly accreting, gravitationally unstable disks with a series of idealized global, numeri...
Self-gravitating protostellar discs are unstable to fragmentation if the gas can cool on a time scal...
Aims. We investigate the dynamics of gaseous clumps formed via gravitational fragmentation in young ...
It is speculated that the accretion of material onto young protostars is episodic. We present a comp...
A star acquires much of its mass by accreting material from a disk. Accretion is probably not contin...
We study protoplanetary disc evolution assuming that angular momentum transport is driven by gravita...
We characterize the infall rate onto protostellar systems forming in self-gravitating radiation-hydr...
Although it is fairly established that Gravitational Instability (GI) should occur in the early phas...
Context. There is growing evidence that massive stars grow by disk accretion in a similar way to the...
Observations show a large spread in the luminosities of young protostars, which are frequently expla...
We analyse the time evolution of the luminosity of a cluster of Population III protostars formed in ...
We develop a semi-analytic formalism for the determination of the evolution of the stellar mass accr...
Aims. Migration of dense gaseous clumps that form in young protostellar disks via gravitational frag...
Aims. The central region of a circumstellar disk is difficult to resolve in global numerical simulat...
We investigate the collapse and fragmentation of low-mass, trans-sonically turbulent pre-stellar cor...
We study rapidly accreting, gravitationally unstable disks with a series of idealized global, numeri...
Self-gravitating protostellar discs are unstable to fragmentation if the gas can cool on a time scal...