Phase Structural Transitions for Large 2D Dust Clusters in Complex Plasmas

2007 IEEE 34th International Conference on Plasma Science (ICOPS) Pub Date : 2007-06-17 DOI:10.1109/PPPS.2007.4346156

K. Qiao, T. Hyde

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Abstract

Summary form only given. The field of complex plasmas has witnessed almost exponential growth since the discovery in 1994 of the self-assembly of ordered structures (Coulomb crystals) within a controlled lab environment. Recently there has been enormous interest in the static and dynamic behavior of 2- and 3D dust clusters consisting of a finite number of charged, ordered dust grains within a horizontal confinement. Both the resulting structures and the dynamic behavior of such small dust clusters (N<100) is now under intense investigation. It has recently been shown employing a numerical simulation that under certain conditions a structural phase transition can occur, reordering a 2D dust crystal from one exhibiting hexagonal lattice structure to that showing a spherical structure consisting of concentric rings. Such phase transitions appear to occur preferentially within the outer layers of larger dust clusters, where the Debye length and the confining potential both vary in a manner which is not yet completely understood. This paper examines such structural phase transitions, analyzing them quantitatively. Experimental data are also compared to simulation results.

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复杂等离子体中大型二维尘埃团的相结构转变

只提供摘要形式。自1994年在受控的实验室环境中发现有序结构(库仑晶体)的自组装以来，复杂等离子体领域几乎呈指数级增长。最近，人们对二维和三维尘埃团的静态和动态行为产生了极大的兴趣，这些尘埃团是由有限数量的带电有序尘埃颗粒组成的。这类小尘埃团(N<100)的结构和动力学行为目前正在进行深入的研究。最近的数值模拟表明，在一定条件下可以发生结构相变，将二维尘埃晶体从六边形晶格结构重新排序为由同心圆组成的球形结构。这种相变似乎优先发生在较大的尘埃团的外层，在那里德拜长度和限制势都以一种尚未完全理解的方式变化。本文考察了这种结构相变，并对其进行了定量分析。并将实验数据与仿真结果进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2007 IEEE 34th International Conference on Plasma Science (ICOPS)

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