Competition of spinon Fermi surface and heavy Fermi liquid states from the periodic Anderson to the Hubbard model

Chuan-yu Chen, I. Sodemann, P. Lee
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引用次数: 8

Abstract

We study a model of correlated electrons coupled by tunnelling to a layer of itinerant metallic electrons, which allows to interpolate from a frustrated limit favorable to spin liquid states to a Kondo-lattice limit favorable to interlayer coherent heavy metallic states. We study the competition of the spinon fermi surface state and the interlayer coherent heavy Kondo metal that appears with increasing tunnelling. Employing a slave rotor mean-field approach, we obtain a phase diagram and describe two regimes where the spin liquid state is destroyed by weak interlayer tunnelling, (i) the Kondo limit in which the correlated electrons can be viewed as localized spin moments and (ii) near the Mott metal-insulator-transition where the spinon fermi surface transitions continuously into a Fermi liquid. We study the shape of LDOS spectra of the putative spin liquid layer in the heavy fermi liquid phase and describe the temperature dependence of its width arising from quasiparticle interactions and disorder effects throughout this phase diagram, in an effort to understand recent STM experiments of the candidate spin liquid 1T-TaSe$_2$ residing on metallic 1H-TaSe$_2$. Comparison of the shape and temperature dependence of the theoretical and experimental LDOS suggest that this system is either close to the localized Kondo limit, or in an intermediate coupling regime where the Kondo coupling and the Heisenberg exchange interaction are comparable.
从周期Anderson模型到Hubbard模型的自旋子费米表面和重费米液态的竞争
我们研究了一个通过隧道耦合到一层流动金属电子的相关电子模型,该模型允许从有利于自旋液态的受挫极限插值到有利于层间相干重金属态的近道晶格极限。我们研究了自旋费米表面态与层间相干重近藤金属的竞争,这种竞争随着隧穿的增加而出现。采用从转子平均场方法,我们得到了一个相图,并描述了两种自旋液态被弱层间隧穿破坏的状态,(i)在Kondo极限,相关电子可以被视为局域自旋矩,(ii)在Mott金属-绝缘体-跃迁附近,自旋子费米表面连续跃迁到费米液体。我们研究了重费米液相中假定的自旋液体层的LDOS光谱形状,并描述了准粒子相互作用和无序效应对其宽度的温度依赖性,以理解最近在金属1H-TaSe$_2$上的候选自旋液体1T-TaSe$_2$的STM实验。理论和实验LDOS的形状和温度依赖性的比较表明,该系统要么接近局域近藤极限,要么处于近藤耦合和海森堡交换相互作用可比较的中间耦合状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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