高压下插层石墨CaC6中超导性的增强及结构不稳定性的证据

Enhancement of superconductivity and evidence of structural instability in intercalated graphite CaC6 under high pressure.

作者信息

Gauzzi A, Takashima S, Takeshita N, Terakura C, Takagi H, Emery N, Hérold C, Lagrange P, Loupias G

机构信息

Department of Advanced Materials Science, University of Tokyo, Kashiwa, Chiba 277-8581, Japan.

出版信息

Phys Rev Lett. 2007 Feb 9;98(6):067002. doi: 10.1103/PhysRevLett.98.067002. Epub 2007 Feb 6.

DOI:10.1103/PhysRevLett.98.067002

PMID:17358974

Abstract

We measured the temperature dependent resistivity, varrho(T), of the intercalated graphite superconductor CaC6 as a function of pressure up to 16 GPa. We found a large linear increase of critical temperature, Tc, from the ambient pressure value 11.5 K up to 15.1 K, the largest value for intercalated graphite, at 7.5 GPa. At approximately 8 GPa, a jump of varrho and a sudden drop of Tc down to approximately 5 K indicates the occurrence of a phase transition. Our data analysis suggests that a pressure-induced phonon softening related to an in-plane Ca phonon mode is responsible for the Tc increase and that higher pressures greater, similar8 GPa lead to a structural transition into a new phase with a low Tc less, similar3 K.

摘要

我们测量了插层石墨超导体CaC6的温度依赖电阻率ρ(T)，它是高达16 GPa压力的函数。我们发现，临界温度Tc从环境压力下的11.5 K大幅线性增加到7.5 GPa时的15.1 K，这是插层石墨的最大值。在大约8 GPa时，ρ的跃升和Tc突然降至约5 K表明发生了相变。我们的数据分析表明，与面内Ca声子模式相关的压力诱导声子软化是Tc增加的原因，而更高的压力（大于约8 GPa）会导致结构转变为Tc较低（小于约3 K）的新相。

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高压下插层石墨CaC6中超导性的增强及结构不稳定性的证据

Enhancement of superconductivity and evidence of structural instability in intercalated graphite CaC6 under high pressure.

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