Wednesday, May 16, 2012

1101.0092 (Jing Guo et al.)

Pressure-Driven Quantum Criticality in An Iron-Selenide Superconductor    [PDF]

Jing Guo, Xiaojia Chen, Chao Zhang, Jiangang Guo, Xiaolong Chen, Qi Wu, Dachun Gu, Peiwen Gao, Xi Dai, Lihong Yang, Ho-kwang Mao, Liling Sun, Zhongxian Zhao
The discovery of superconductivity of about 30 K in iron selenides with very large magnetic moments simulates the examination of completing orders. Here we report a finding of pressure- induced suppression of the superconducting transition temperature Tc and enhancement of the temperature of the resistance hump TH through charge transfer between two iron sites with different occupancies. The activation energy for the electric transport of the high-temperature resistance is observed to go to zero at a critical pressure of 8.7 GPa, at which superconductivity tends to disappear and the semiconductor-to-metal transition takes place. Beyond the critical point, the resistance exhibits a metallic behavior over the whole temperature range studied. All these features indicate the existence of quantum criticality in iron-selenide superconductors.
View original: http://arxiv.org/abs/1101.0092

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