Add to ORKGCoagulation of (sub)micron-sized dust particles occurs in a variety of envi- ronments; such as the interstellar medium, protoplanetary disks, Earth's upper atmosphere and industrial processes. Understanding the physics of collisions and interparticle interactions of dust grains within this size regime is essential to in- derstanding such environments. To gain detailed insight into the parameters which enhance or inhibit coagulation it is beneficial to employ numerical methods to grow aggregates where the degrees of freedom may be tuned to a multitude of possible parameter sets. Two of the possible numerical methods which may be employed are pair-wise simulations or N-body simulations. This work expands upon previous numerical metho...
The charge on an aggregate immersed in a plasma environment distributes itself over the aggregate’s ...
Coagulation of dust aggregates plays an important role in the formation of planets and is of key im...
A numerical model with broad applications to complex (dusty) plasmas is presented. The self-consiste...
Even though dust coagulation is a very important dust processing mechanisms in interstellar space an...
This study examines the effect that dipole–dipole charge interactions between fractal aggregates ha...
Coagulation is an important mechanism in the growth of interstellar and interplanetary dust particle...
Context. Bouncing collisions of dust aggregates within the protoplanetary disk may have a significan...
The protoplanetary disk is the place where small, micron-size dust grains will coagulate into planet...
Context. The coagulation of dust particles is the initial step in planetary formation, with the pre...
The coagulation of dust aggregates occurs in various astrophysical environments. Each one is charac...
The coagulation of dust aggregates occurs in various astrophysical environments. Each one is charact...
Context. Bouncing collisions of dust aggregates within the protoplanetary disk may have a significan...
Context. The coagulation of dust particles is the initial step in planetary formation, with the prec...
Coagulation of dust particles plays an important role in the formation of planets and is of key impo...
Context. The early planetesimal growth proceeds through a sequence of sticking collisions of dust ag...
The charge on an aggregate immersed in a plasma environment distributes itself over the aggregate’s ...
Coagulation of dust aggregates plays an important role in the formation of planets and is of key im...
A numerical model with broad applications to complex (dusty) plasmas is presented. The self-consiste...
Even though dust coagulation is a very important dust processing mechanisms in interstellar space an...
This study examines the effect that dipole–dipole charge interactions between fractal aggregates ha...
Coagulation is an important mechanism in the growth of interstellar and interplanetary dust particle...
Context. Bouncing collisions of dust aggregates within the protoplanetary disk may have a significan...
The protoplanetary disk is the place where small, micron-size dust grains will coagulate into planet...
Context. The coagulation of dust particles is the initial step in planetary formation, with the pre...
The coagulation of dust aggregates occurs in various astrophysical environments. Each one is charac...
The coagulation of dust aggregates occurs in various astrophysical environments. Each one is charact...
Context. Bouncing collisions of dust aggregates within the protoplanetary disk may have a significan...
Context. The coagulation of dust particles is the initial step in planetary formation, with the prec...
Coagulation of dust particles plays an important role in the formation of planets and is of key impo...
Context. The early planetesimal growth proceeds through a sequence of sticking collisions of dust ag...
The charge on an aggregate immersed in a plasma environment distributes itself over the aggregate’s ...
Coagulation of dust aggregates plays an important role in the formation of planets and is of key im...
A numerical model with broad applications to complex (dusty) plasmas is presented. The self-consiste...