Add to ORKG\u3cp\u3eCombining a particle-particle, particle-cluster, and cluster-cluster agglomeration model with an aggregate charging model, the coagulation and charging of dust particles in plasma environments relevant for protoplanetary disks have been investigated, including the effect of electron depletion in high dust density environments. The results show that charged aggregates tend to grow by adding small particles and clusters to larger particles and clusters, and that cluster-cluster aggregation is significantly more effective than particle-cluster aggregation. Comparisons of the grain structure show that with increasing aggregate charge the compactness factor, φ\u3csub\u3eσ\u3c/sub\u3e, decreases and has a narrower distribution, indicatin...
A numerical model with broad applications to complex (dusty) plasmas is presented. The self-consiste...
A numerical model with broad applications to complex (dusty) plasmas is presented. The self-consiste...
Dust aggregates are formed in a laboratory plasma as monodisperse spheres are accelerated in a self-...
Combining a particle–particle, particle–cluster, and cluster–cluster agglomerationmodel with an aggr...
Plasma is a gas in which a portion of particles are ionized. Dust is a ubiquitous component of the u...
The structure and evolution of aggregate grains formed within a plasma environment are dependent on ...
The charge on an aggregate immersed in a plasma environment distributes itself over the aggregate’s ...
The charging of dust grains in astrophysical environments has been investigated with the assumption ...
Dust particles immersed in a plasma environment become charged through the collection of electrons a...
The coagulation of cosmic dust grains is a fundamental process which takes place in astrophysical en...
Explanation of the electrostatic behavior of dust grains in complex plasmas requires a knowledge of ...
This study examines the effect that dipole–dipole charge interactions between fractal aggregates ha...
Initially uncharged grains in space and laboratory plasma environments become charged due to current...
Context. Recent work identified a growth barrier for dust coagulation that originates in the electri...
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...
A numerical model with broad applications to complex (dusty) plasmas is presented. The self-consiste...
Dust aggregates are formed in a laboratory plasma as monodisperse spheres are accelerated in a self-...
Combining a particle–particle, particle–cluster, and cluster–cluster agglomerationmodel with an aggr...
Plasma is a gas in which a portion of particles are ionized. Dust is a ubiquitous component of the u...
The structure and evolution of aggregate grains formed within a plasma environment are dependent on ...
The charge on an aggregate immersed in a plasma environment distributes itself over the aggregate’s ...
The charging of dust grains in astrophysical environments has been investigated with the assumption ...
Dust particles immersed in a plasma environment become charged through the collection of electrons a...
The coagulation of cosmic dust grains is a fundamental process which takes place in astrophysical en...
Explanation of the electrostatic behavior of dust grains in complex plasmas requires a knowledge of ...
This study examines the effect that dipole–dipole charge interactions between fractal aggregates ha...
Initially uncharged grains in space and laboratory plasma environments become charged due to current...
Context. Recent work identified a growth barrier for dust coagulation that originates in the electri...
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...
A numerical model with broad applications to complex (dusty) plasmas is presented. The self-consiste...
Dust aggregates are formed in a laboratory plasma as monodisperse spheres are accelerated in a self-...