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Three observations on the ARPES data of the cuprate superconductors - what the AF spin fluctuation can do and what it cannot
时间: 2019年06月13日 14:00
地点: M楼830
报告人: 李涛

中国人民大学

We discuss the origin of the pseudogap phenomena in the cuprate superconductors by analyzing three recent ARPES observations from the perspective of the spin-Fermion model. Firstly, we show that the recent observation of the vanishing of the pseudogap around (π,0) in the electron-doped cuprate Pr1.3−xLa0.7CexCuO4 is consistent with the AF band folding picture of the pseudogap in the electron-doped cuprates, provided that we assume a strongly momentum dependent quasi-particle scattering rate on the Fermi surface [1,2]. Secondly, we argue that the pseudogap in the hole-doped cuprates is unlikely an AF band folding gap, since the spin fluctuation in the hole-doped cuprates is much more short-ranged and dynamical in nature than that in the electron-doped cuprates. In particular, we show that electron pairing is indispensable to eliminate the Fermi level crossing along (π,0)-(π,π) in a way that is consistent with the ARPES observation in the under-doped Bi-2201 system around T* [3,4].  Nevertheless, we find that the AF spin fluctuation in the hole-doped cuprates is responsible for the emergence of the broad high energy hump structure in the anti-nodal region, and the mismatch between the back-bending momentum of the hump maximum and the underlying Fermi momentum along (π,0)-(π,π), and in particular, the extremely flatness of the anti-nodal quasi-particle dispersion in the superconducting state [5,6]. We argue that the particle-hole symmetry breaking should better be studied in the energy space, rather than in the momentum space [3]. Lastly, we show that the recent observation of the critical behavior at the pseudogap end point is consistent with the spin-Fermion picture [7,8], even though the local spin in the cuprates is far from critical at such a high doping level, if one note the singular AF response of the quasi-particle system at the VHS doping.     

[1] Hario et al, arXiv: 1801.04147.
[2] Tao Li and Da-Wei Yao, arXiv: 1803.08226 and EPL(2018)。
[3] Hashimoto et al, Nat. Phys. 6, 414 (2010).
[4] Tao Li and Da-Wei Yao, arXiv: 1805.05530.
[5] Rui-Hua He et al Science 331, 1579 (2011).
[6] Tao Li and Da-Wei Yao, arXiv: 1805.04883.
[7] Michon et al, arXiv: 1804.08502.
[8] Tao Li, arXiv: 1805.06395.      

报告人简介:李涛,中国科学技术大学物理系低温物理专业本科、硕士,北京大学物理系凝聚态物理专业博士,清华大学高等研究院博士后、副研究员,2005年起担任中国人民大学物理系教授。主要从事高温超导机理和量子磁性的基础理论研究,研究方法包括低能有效理论、变分蒙特卡洛模拟以及唯象理论分析,对于量子自旋液体的变分搜索和低能有效理论构造、强关联电子系统动力学谱的变分构造和算法发展、以及高温超导体电子能谱的唯象理论分析有长期和较深入的研究。

邀请人:杨义峰,9448


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