电子自能的涨落诊断：赝能隙物理的起源

Fluctuation Diagnostics of the Electron Self-Energy: Origin of the Pseudogap Physics.

作者信息

Gunnarsson O, Schäfer T, LeBlanc J P F, Gull E, Merino J, Sangiovanni G, Rohringer G, Toschi A

机构信息

Max-Planck-Institut für Festkörperforschung, Heisenbergstraße 1, D-70569 Stuttgart, Germany.

Institute of Solid State Physics, Vienna University of Technology, A-1040 Vienna, Austria.

出版信息

Phys Rev Lett. 2015 Jun 12;114(23):236402. doi: 10.1103/PhysRevLett.114.236402. Epub 2015 Jun 10.

DOI:10.1103/PhysRevLett.114.236402

PMID:26196809

Abstract

We demonstrate how to identify which physical processes dominate the low-energy spectral functions of correlated electron systems. We obtain an unambiguous classification through an analysis of the equation of motion for the electron self-energy in its charge, spin, and particle-particle representations. Our procedure is then employed to clarify the controversial physics responsible for the appearance of the pseudogap in correlated systems. We illustrate our method by examining the attractive and repulsive Hubbard model in two dimensions. In the latter, spin fluctuations are identified as the origin of the pseudogap, and we also explain why d-wave pairing fluctuations play a marginal role in suppressing the low-energy spectral weight, independent of their actual strength.

摘要

我们展示了如何识别哪些物理过程主导了关联电子系统的低能谱函数。通过对电子自能在电荷、自旋和粒子-粒子表象下的运动方程进行分析，我们得到了一个明确的分类。然后我们采用我们的方法来阐明导致关联系统中赝能隙出现的有争议的物理机制。我们通过研究二维吸引和排斥哈伯德模型来说明我们的方法。在后者中，自旋涨落被确定为赝能隙的起源，并且我们还解释了为什么d波配对涨落在抑制低能谱权重方面只起次要作用，而与它们的实际强度无关。

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电子自能的涨落诊断：赝能隙物理的起源

Fluctuation Diagnostics of the Electron Self-Energy: Origin of the Pseudogap Physics.

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