Polarization and Finite Size Effects in Correlation Functions of Dusty Plasmas

Davletov, A. E.; Yerimbetova, L. T.; Mukhametkarimov, Ye. S.; Ospanova, A. K.

doi:10.1002/ctpp.201400086

Cited by 3 publications

(1 citation statement)

References 41 publications

(33 reference statements)

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“…Note for the following that the first peak in the curves of the static structure factor is practically independent of the packing fraction, that is, of the size of dust particles, and is located near the wavenumber ka d ≈ 4.2 at Γ = 100 and κ = 2. Quite a similar inferences were made in but for different interdust interaction model and the hypernetted‐chain (HNC) approximation with the adjusted number density of dust particles.…”

Section: Static Propertiesmentioning

confidence: 52%

Dynamic properties of strongly coupled dusty plasmas with particles of finite dimensions

Yerimbetova

Davletov

Arkhipov

et al. 2019

Contributions to Plasma Physics

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The aim of the present study is to determine the impact the finite size of dust particles has on the static and dynamic characteristics of the dust component of a plasma.Taking into account both the finite dimensions of dust grains and the plasma screening, a model expression is chosen for the interdust interaction potential. The static structure factor of dust particles is evaluated by iteratively solving the reference hypernetted-chain approximation, which inherently contains the hard sphere model handled within the Percus-Yevick closure. The self-consistent method of moments is then engaged to relate the static and dynamic structure factors by assuming that the second derivative of the dynamic structure factor with respect to the frequency vanishes at the origin. Thus, an analytical expression for the dynamic structure factor is validated over quite a broad domain of dusty plasma non-ideality and grains packing fraction. The calculated spectrum of dust-acoustic waves reveals the appearance of the roton minimum, which becomes less pronounced when the packing fraction of dust particles rises. It is also predicted that the wavenumber position of the roton minimum is de facto independent of the size of dust particles. New analytical expressions for the dust-acoustic wave spectrum and decrement of damping are proposed and thoroughly checked. K E Y W O R D Sdust-acoustic waves, dusty plasmas, dynamic structure factor, method of moments

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Section: Static Propertiesmentioning

confidence: 52%

Dynamic properties of strongly coupled dusty plasmas with particles of finite dimensions

Yerimbetova

Davletov

Arkhipov

et al. 2019

Contributions to Plasma Physics

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Polarization Effects on Thermal Conductivity of Dusty Plasmas

et al. 2022

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Interaction force between two finite-size charged particles in weakly ionized plasma

2017

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The results of numerical studies of the interaction forces between two finite-size charged spherical conductive particles embedded into weakly ionized strongly collisional isothermal plasma-like medium are presented. The studies are performed for the case of particles with fixed electric charge under the assumption that particles do not absorb electrons and ions from the surrounding plasma (colloidal particles) as well as for particles charged by plasma currents (grains). In the first case the Poisson-Boltzmann model was used and in the second the dynamics of grain charging is described in the drift-diffusion approximation. It is shown that at the large distances the interaction force between colloidal particles has the Debye screened asymptotic while for the grains the Coulomb-like behavior is observed. The dependence of the grain charge collected due to the plasma particle absorption on the distance between two grains is studied. The possibility of introducing effective Coulomb description of finite-size grain interaction in weakly ionized strongly collisional plasma is discussed.

show abstract

Polarization and Finite Size Effects in Correlation Functions of Dusty Plasmas

Cited by 3 publications

References 41 publications

Dynamic properties of strongly coupled dusty plasmas with particles of finite dimensions

Dynamic properties of strongly coupled dusty plasmas with particles of finite dimensions

Polarization Effects on Thermal Conductivity of Dusty Plasmas

Interaction force between two finite-size charged particles in weakly ionized plasma

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