Self-Organization of Charged Particulates in the Presence of External Force

Abstract: Evolution of spatial distribution of charged particulates under the action of an external force is investigated. It is found that starting from a homogeneous Maxwellian distribution of particulates, clusters can form and aggregate. The evolution process, as well as the asymptotic number and configuration of the clusters formed, depends strongly on the strength of the external force. The particulates in most of the final clusters are in the crystal state, as can also be deduced from the corresponding velocity a… Show more

“…[1][2][3][4][5][6][7][8][9][10] We shall use the modified Yukawa potential that includes the effects of the background plasma electrons and ions on the grains. [8][9][10][33][34][35]…”

Effect of external fields on pattern formation of charged grains in plasma

“…[1][2][3][4][5][6][7][8][9][10] We shall use the modified Yukawa potential that includes the effects of the background plasma electrons and ions on the grains. [8][9][10][33][34][35]…”

Effect of external fields on pattern formation of charged grains in plasma

“…The differences among the models lie in the ranges and magnitudes of the two regimes. In our simulation, the grain-grain interaction is governed by a modified-Yukawa potential [19,20,[28][29][30][31]33] U int (r i j ) = q 2 r i j exp − r i j…”

“…[3,4,[11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26] Recently it has been shown that by tailoring the external force one can obtain controllable compact structures such as dust-grain crystals, [26,27] and the time required to reach the cluster state decreases with external force increasing. [28][29][30][31][32][33] Although what happens after the external force has been withdrawn can be important in many applications, [1] it has not been investigated. In this paper, we use molecular dynamics (MD) simulation to investigate the evolution of charged grains in a 2D dusty plasma under an external force, particularly the long-time evolution of the resulting grain crystal after it has been withdrawn.…”

Long-time evolution of charged grains in plasma under harmonic external force and after being withdrawn

“…In the past few decades, dusty plasmas have attracted much research attention because they play important roles in many phenomena in the astrophysical environments, the Earth's ionosphere, 2–7 as well as in industrial processes such as semiconductor device manufacturing, plasma etching, materials coating and modification, etc 1,6–9 . As a result, there has been much interest in the theory and applications of dusty plasmas, covering a large range of the physical parameters involved 10–35 . Since the electrons have much higher mobility, inelastic collisions between the electrons and dust grains are much more frequent than that of ions, so that the dust grains are usually highly negatively charged 10 …”

“…Song et al 22 studied the effect of the plasma temperature on the structures and the dynamics of dust clusters, and found that depending on the discharge power, dust clusters can also be in crystal or liquid states. Existing studies have also considered various internal and external, such as ion and neutral‐particle drag, thermophoretic, radiation pressure, gravitational, etc., forces and other effects on the dynamics and structure of dust grains in a plasma 11–35 …”

Evolution of charged grains in harmonic force field