265 research outputs found
Collective modes of two-dimensional classical Coulomb fluids
Molecular dynamics simulations have been performed to investigate in detail
collective modes spectra of two-dimensional Coulomb fluids in a wide range of
coupling. The obtained dispersion relations are compared with theoretical
approaches based on quasi-crystalline approximation (QCA), also known as the
quasi-localized charge approximation (QLCA) in the plasma-related context. An
overall satisfactory agreement between theory and simulations is documented for
the longitudinal mode at moderate coupling and in the long-wavelength domain at
strong coupling. For the transverse mode, satisfactory agreement in the
long-wavelength domain is only reached at very strong coupling, when the cutoff
wave-number below which shear waves cannot propagate becomes small. The
dependence of the cutoff wave-number for shear waves on the coupling parameter
is obtained.Comment: 10 pages, 6 figure
Accurate momentum transfer cross section for the attractive Yukawa potential
Accurate expression for the momentum transfer cross section for the
attractive Yukawa potential is proposed. This simple analytic expression agrees
with the numerical results better than to within in the regime
relevant for ion-particle collisions in complex (dusty) plasmas.Comment: to be published in Physics of Plasma
Three dimensional complex plasma structures in a combined radio frequency and direct current discharge
We report on the first detailed analysis of large three dimensional (3D)
complex plasma structures in experiments performed in pure rf and combined
rf+dc discharge modes. Inductively coupled plasma (ICP) is generated by an rf
coil wrapped around the vertically positioned cylindrical glass tube at a
pressure of 0.3 mbar. In addition, dc plasma can be generated by applying
voltage to the electrodes at the ends of the tube far from the rf coil. The
injected monodisperse particles are levitated in the plasma below the coil. A
scanning laser sheet and a high resolution camera are used to determine the 3D
positions of about particles. The observed bowl-shaped particle clouds
reveal coexistence of various structures, including well-distinguished
solid-like, less ordered liquid-like, and pronounced string-like phases. New
criteria to identify string-like structures are proposed.Comment: 6 pages, 7 figure
Practical dispersion relations for strongly coupled plasma fluids
Very simple explicit analytical expressions are discussed, which are able to
describe the dispersion relations of longitudinal waves in strongly coupled
plasma systems such as one-component plasma and weakly screened Yukawa fluids
with a very good accuracy. Applications to other systems with soft pairwise
interactions are briefly discussed.Comment: 11 pages, 3 figures; Related to arXiv:1711.0615
Self-diffusion in strongly coupled Yukawa systems (complex plasmas)
We show that the idea of mapping between the Newtonian and Brownian
diffusivities proposed and tested on a class of particle systems interacting
via soft and ultra-soft potentials (IPL, Gaussian core, Hertzian, and effective
star-polymer) by Pond {\it et al}., [Soft Matter {\bf 7}, 9859 (2011)] is also
applicable to the Yukawa (screened Coulomb) interaction. Some of the
implications of this result with respect to self-diffusion in strongly coupled
complex (dusty) plasmas are discussed.Comment: 9 pages, 3 figures, submitted to Phys. Plasma
Effect of ionization/recombination processes on the electrical interactions between positively charged particles in highly collisional plasmas
The effect of ionization and recombination processes on the electrical
interactions between a pair of small charged particles in highly collisional
plasmas is discussed. In particular, it is shown that these processes suppress
the long-range attraction between positively charged particles. The condition
corresponding to the vanishing of attraction is derived. The role of the effect
for conditions of existing experiments is estimated
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