2015
DOI: 10.1002/ctpp.201400086
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Polarization and Finite Size Effects in Correlation Functions of Dusty Plasmas

Abstract: An approach is presented to derive a pseudopotential model of interaction between dust particles that simultaneously takes into account the polarization, finite size and screening effects. The consideration starts from the assumption that the dust particles are hard balls made of a conductive material such that their mutual interaction and interaction with the electrons and ions of the buffer plasma can analytically be interpreted within the method of image charges. Then, the renormalization theory of plasma p… Show more

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Cited by 3 publications
(1 citation statement)
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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%
“…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%