将基态手性印刻在原子自旋上

arXiv - PHYS - Superconductivity Pub Date : 2024-08-08 DOI:arxiv-2408.04578

Yun-Peng Huang, Panagiotis Kotetes

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引用次数: 0

摘要

我们提出了一种用于检测掺杂切尔纳绝缘体和手性超导体的替代实验方案。我们的方法依赖于目标手性系统与原子自旋的耦合。由于基底的手性，原子自旋预计会以非共面构型有序排列，自旋手性为零。在这里，我们获得了手性基底的具体结果，它在任意自旋旋转下保持不变，并与携带经典力矩的三个原子耦合。通过探索所有可访问的磁场态，我们确定了非零自旋手性在原子复合物上的诱导机制。我们将这一方法应用于山谷极化的双层石墨烯和 $d+id$超导体，并发现了本质上不同的基态图。我们的分析表明，原子自旋手性完全体现了基底手性的特性。

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Imprinting Ground State Chirality on Adatom Spins

We propose an alternative experimental protocol for the detection of doped Chern insulators and chiral superconductors. Our approach relies on coupling the target chiral system to adatom spins. Due to the substrate chirality, the adatom spins are expected to order in a noncoplanar configuration with a nonzero spin chirality. Here, we obtain concrete results for chiral substrates which are invariant under arbitrary spin rotations, and are coupled to three adatoms carrying classical moments. By exploring all the accessible magnetic ground states, we identify the regimes in which nonzero spin chirality is induced on the adatom complex. We apply our method to valley-polarized bilayer graphene and $d+id$ superconductors, and find qualitatively different ground state diagrams. Our analysis shows that the adatom spin chirality fully encodes the properties of the substrate chirality.

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arXiv - PHYS - Superconductivity

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