掺杂la2 -x(Sr)xCuO4中涡旋/反涡旋吸引的空穴配对

Journal De Physique Pub Date : 1990-10-01 DOI:10.1051/JPHYS:0199000510200222900

G. Corsten, C. Liem, R. Blumenfeld, N. Jan

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摘要

用数值方法研究了纯反铁磁XY (n=2)自旋体系中离域磁受挫的后果。发现这种挫折显著增强了涡激励的形成，涡激励倾向于在低于Kosterlitz-Thouless转变温度的情况下结合反涡。我们发现受挫斑块之间的净吸引力是由涡流之间的吸引力介导的。应用于高温超导材料的理解，如la2−x (Sr) x cuo4，这可以作为一个真正的空间配对机制，在掺杂诱导的空穴之间具有高结合能。这种配对模型和“自旋-全息”图像之间有一些共同的特征，这可能会在这些不同的方法之间提供一种联系

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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Pairing of holes via vortex/antivortex attraction in doped La 2-x(Sr)xCuO4

The consequences of delocalised magnetic frustration in the pure antiferromagnetic XY (n=2) spin system are studied numerically. This frustration is found to enhance significantly the formation of vortex excitations, which tend to bind antivortices below the Kosterlitz-Thouless transition temperature. We find a net attraction between frustrated plaquettes mediated by the attraction between the vortices. Applied to the understanding of high temperature superconducting materials, like La 2−x (Sr) x CuO 4 , this can serve as a real space pairing mechanism with a high binding energy between the holes, induced by doping. There are common features between this pairing model and the «spinon-holon» picture, which may provide a link between these different approaches

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Journal De Physique

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