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Structural properties of complex plasmas in a homogeneous dc discharge

We report on the first three-dimensional (3D) complex plasma structure analysis for an experiment that was performed in an elongated discharge tube in the absence of striations. The low frequency discharge was established with 1 kHz alternating dc current through a cylindrical glass tube filled with...

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Published in:	Physical review letters 2008-09, Vol.101 (12), p.125002-125002, Article 125002
Main Authors:	Mitic, S, Klumov, B A, Konopka, U, Thoma, M H, Morfill, G E
Format:	Article
Language:	English
Subjects:	CAMERAS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS DIRECT CURRENT GLASS LASERS MOLECULAR DYNAMICS METHOD NEON PLASMA PRESSURE RANGE PA SHEETS SIMULATION THREE-DIMENSIONAL CALCULATIONS TUBES
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creator	Mitic, S Klumov, B A Konopka, U Thoma, M H Morfill, G E
description	We report on the first three-dimensional (3D) complex plasma structure analysis for an experiment that was performed in an elongated discharge tube in the absence of striations. The low frequency discharge was established with 1 kHz alternating dc current through a cylindrical glass tube filled with neon at 30 Pa. The injected particle cloud consisted of monodisperse microparticles. A scanning laser sheet and a camera were used to determine the particle position in 3D. The observed cylindrical-shaped particle cloud showed an ordered structure with a distinct outer particle shell. The observations are in agreement with performed molecular dynamics simulations.
doi_str_mv	10.1103/physrevlett.101.125002
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subjects	CAMERAS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS DIRECT CURRENT GLASS LASERS MOLECULAR DYNAMICS METHOD NEON PLASMA PRESSURE RANGE PA SHEETS SIMULATION THREE-DIMENSIONAL CALCULATIONS TUBES
title	Structural properties of complex plasmas in a homogeneous dc discharge
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