无无序的非BCS超导体Cs3C60源自反铁磁绝缘体母体状态。

The disorder-free non-BCS superconductor Cs3C60 emerges from an antiferromagnetic insulator parent state.

作者信息

Takabayashi Yasuhiro, Ganin Alexey Y, Jeglic Peter, Arcon Denis, Takano Takumi, Iwasa Yoshihiro, Ohishi Yasuo, Takata Masaki, Takeshita Nao, Prassides Kosmas, Rosseinsky Matthew J

机构信息

Department of Chemistry, University of Durham, Durham DH1 3LE, UK.

出版信息

Science. 2009 Mar 20;323(5921):1585-90. doi: 10.1126/science.1169163.

DOI:10.1126/science.1169163

PMID:19299615

Abstract

The body-centered cubic A15-structured cesium fulleride Cs3C60 is not superconducting at ambient pressure and is free from disorder, unlike the well-studied face-centered cubic A3C60 alkali metal fulleride superconductors. We found that in Cs3C60, where the molecular valences are precisely assigned, the superconducting state at 38 kelvin emerges directly from a localized electron antiferromagnetic insulating state with the application of pressure. This transition maintains the threefold degeneracy of the active orbitals in both competing electronic states; it is thus a purely electronic transition to a superconducting state, with a dependence of the transition temperature on pressure-induced changes of anion packing density that is not explicable by Bardeen-Cooper-Schrieffer (BCS) theory.

摘要

体心立方A15结构的铯富勒化物Cs3C60在常压下不超导且无无序现象，这与经过充分研究的面心立方A3C60碱金属富勒化物超导体不同。我们发现，在分子价态精确确定的Cs3C60中，施加压力时，38开尔文的超导态直接从局域电子反铁磁绝缘态出现。这种转变在两种竞争电子态中都保持了活性轨道的三重简并性；因此，这是一种向超导态的纯电子转变，其转变温度对压力诱导的阴离子堆积密度变化的依赖性无法用巴丁-库珀-施里弗（BCS）理论解释。

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无无序的非BCS超导体Cs3C60源自反铁磁绝缘体母体状态。

The disorder-free non-BCS superconductor Cs3C60 emerges from an antiferromagnetic insulator parent state.

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