Context. The coagulation of microscopic dust into planetesimals is the first step towards the formation of planets. The composition, size, and shape of the growing aggregates determine the efficiency of this early growth. In particular, it has been proposed that fluffy ice aggregates can grow very efficiently in protoplanetary disks, suffering less from the bouncing and radial drift barriers. Aims. While the collision velocity between icy aggregates of similar size is thought to stay below the fragmentation threshold, they may nonetheless lose mass from collisions with much smaller projectiles. As a result, erosive collisions have the potential to terminate the growth of pre-planetesimal bodies. We investigate the effect of these er...
The sticking of micron sized dust particles due to surface forces in circumstellar disks is the firs...
Previous work on protoplanetary dust growth shows a halt at centimeter sizes owing to the occurrence...
The formation of planetesimals in protoplanetary disks due to collisional sticking of smaller dust ...
Context. The coagulation of microscopic dust into planetesimals is the first step towards the format...
Context. Collisional growth of dust aggregates is an essential process in forming planetes...
We carry out three-dimensional Smoothed Particle Hydrodynamics simulations of spherical homogeneous ...
Aims. The aim of this work is to gain a deeper insight into how much different aggregate types are a...
Context. The sticking of micron-sized dust particles caused by surface forces within circumstellar d...
Context. The journey from dust particle to planetesimal involves physical processes acting on scales...
Context. Collisions between porous dust aggregates are crucial for the evolution of protoplanetary d...
Context. The growth processes from protoplanetary dust to planetesimals are not fully understood. La...
Context. The growth processes from protoplanetary dust to planetesimals are not fully understood. La...
Collisions of mm-size dust aggregates play a crucial role in the early phases of planet formation. I...
Context. The early stages of planet formation are still not well understood. Coagulation models have...
Context.Sticking of colliding dust particles through van der Waals forces is the first stage in the ...
The sticking of micron sized dust particles due to surface forces in circumstellar disks is the firs...
Previous work on protoplanetary dust growth shows a halt at centimeter sizes owing to the occurrence...
The formation of planetesimals in protoplanetary disks due to collisional sticking of smaller dust ...
Context. The coagulation of microscopic dust into planetesimals is the first step towards the format...
Context. Collisional growth of dust aggregates is an essential process in forming planetes...
We carry out three-dimensional Smoothed Particle Hydrodynamics simulations of spherical homogeneous ...
Aims. The aim of this work is to gain a deeper insight into how much different aggregate types are a...
Context. The sticking of micron-sized dust particles caused by surface forces within circumstellar d...
Context. The journey from dust particle to planetesimal involves physical processes acting on scales...
Context. Collisions between porous dust aggregates are crucial for the evolution of protoplanetary d...
Context. The growth processes from protoplanetary dust to planetesimals are not fully understood. La...
Context. The growth processes from protoplanetary dust to planetesimals are not fully understood. La...
Collisions of mm-size dust aggregates play a crucial role in the early phases of planet formation. I...
Context. The early stages of planet formation are still not well understood. Coagulation models have...
Context.Sticking of colliding dust particles through van der Waals forces is the first stage in the ...
The sticking of micron sized dust particles due to surface forces in circumstellar disks is the firs...
Previous work on protoplanetary dust growth shows a halt at centimeter sizes owing to the occurrence...
The formation of planetesimals in protoplanetary disks due to collisional sticking of smaller dust ...