层间配对超导体 4Hb-TaS2 中的磁化放大作用

IF 3.7 2区物理与天体物理 Q1 Physics and Astronomy Physical Review B Pub Date : 2024-07-03 DOI:10.1103/physrevb.110.024502

Chunxiao Liu, Shubhayu Chatterjee, Thomas Scaffidi, Erez Berg, Ehud Altman

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引用次数: 0

摘要

最近在块状化合物 4Hb-TaS2 上进行的一项实验揭示了一种不寻常的打破时间逆对称性的超导态，它具有正常态所没有的磁记忆。在此，我们通过研究 4Hb-TaS2 的磁性和电子特性，为这一观察结果提供了一种机制。我们从自旋磁化和轨道磁化的角度讨论了正常态中小磁化的标准。基于对晶格对称性和费米面结构的分析，我们提出 4Hb-TaS2 在层间等自旋沟道中实现了超导性，其间隙函数的相位沿费米面绕 6π 的整数倍。如果实现了间隙绕组为 6π 的状态，就可以解释超导态的磁化率比正常态高的现象，这也是观察到的磁记忆的原因。我们讨论了如何通过自旋偏振扫描隧道显微镜对这种超导状态进行实验探测。

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Magnetization amplification in the interlayer pairing superconductor 4Hb−TaS2

A recent experiment on the bulk compound

4 H b − {TaS}_{2}

reveals an unusual time-reversal symmetry-breaking superconducting state that possesses a magnetic memory not manifest in the normal state. Here we provide a mechanism for this observation by studying the magnetic and electronic properties of

4 H b − {TaS}_{2}

. We discuss the criterion for a small magnetization in the normal state in terms of spin and orbital magnetizations. Based on an analysis of lattice symmetry and Fermi surface structure, we propose that

4 H b − {TaS}_{2}

realizes superconductivity in the interlayer, equal-spin channel with a gap function whose phase winds along the Fermi surface by an integer multiple of

6 π

. The enhancement of the magnetization in the superconducting state compared to the normal state can be explained if the state with a gap winding of

6 π

is realized, accounting for the observed magnetic memory. We discuss how this superconducting state can be probed experimentally by spin-polarized scanning tunneling microscopy.

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来源期刊

Physical Review B 物理-物理：凝聚态物理

CiteScore

6.70

自引率

32.40%

发文量

审稿时长

3.0 months

期刊介绍： Physical Review B (PRB) is the world’s largest dedicated physics journal, publishing approximately 100 new, high-quality papers each week. The most highly cited journal in condensed matter physics, PRB provides outstanding depth and breadth of coverage, combined with unrivaled context and background for ongoing research by scientists worldwide. PRB covers the full range of condensed matter, materials physics, and related subfields, including: -Structure and phase transitions -Ferroelectrics and multiferroics -Disordered systems and alloys -Magnetism -Superconductivity -Electronic structure, photonics, and metamaterials -Semiconductors and mesoscopic systems -Surfaces, nanoscience, and two-dimensional materials -Topological states of matter