应变调控揭示铁基超导体中的向列型量子临界点

Nematic quantum criticality in an Fe-based superconductor revealed by strain-tuning.

机构信息

Stanford Institute for Materials and Energy Science, SLAC National Accelerator Laboratory, Menlo Park, CA 94025, USA.

Department of Applied Physics and Geballe Laboratory of Advanced Materials, Stanford University, Stanford, CA 94305, USA.

出版信息

Science. 2021 May 28;372(6545):973-977. doi: 10.1126/science.abb9280.

DOI:10.1126/science.abb9280

PMID:34045352

Abstract

Quantum criticality may be essential to understanding a wide range of exotic electronic behavior; however, conclusive evidence of quantum critical fluctuations has been elusive in many materials of current interest. An expected characteristic feature of quantum criticality is power-law behavior of thermodynamic quantities as a function of a nonthermal tuning parameter close to the quantum critical point (QCP). Here, we observed power-law behavior of the critical temperature of the coupled nematic/structural phase transition as a function of uniaxial stress in a representative family of iron-based superconductors, providing direct evidence of quantum critical nematic fluctuations in this material. These quantum critical fluctuations are not confined within a narrow regime around the QCP but rather extend over a wide range of temperatures and compositions.

摘要

量子临界性对于理解广泛的奇异电子行为可能至关重要；然而，在许多当前关注的材料中，量子临界涨落的确凿证据仍然难以捉摸。量子临界性的一个预期特征是热力学量作为接近量子临界点（QCP）的非热调谐参数的函数的幂律行为。在这里，我们在代表性的铁基超导体家族中观察到了连接的向列/结构相转变的临界温度作为单轴应力的函数的幂律行为，这为该材料中量子临界向列涨落提供了直接证据。这些量子临界涨落不仅局限于 QCP 附近的狭窄区域，而是在很宽的温度和组成范围内扩展。

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应变调控揭示铁基超导体中的向列型量子临界点

Nematic quantum criticality in an Fe-based superconductor revealed by strain-tuning.

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