直流驱动的霍尔丹自旋链中的多体凯尔迪什交叉

arXiv - PHYS - Strongly Correlated Electrons Pub Date : 2024-09-15 DOI:arxiv-2409.09578

Koichi Okazaki, Shun Okumura, Shintaro Takayoshi, Takashi Oka

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引用次数: 0

摘要

我们从理论上研究了反铁磁自旋-1 海森堡模型中由直流自旋电场驱动的非线性过程。直流自旋电场会产生有限的自旋电流和积累，因为对称性保护拓扑秩序会被电场破坏。我们发现有两种微观机制导致自旋电场的破坏以及它们之间的交叉：在弱磁场中，通过隧道机制产生三重子-反三重子对，而在强磁场中，系统由打破保护对称性的有效哈密顿描述。我们用戴维-佩丘卡斯理论（Dykhne-Davis-Pechukas theory）和弗洛盖理论（Floquet theory）分析了数值结果，验证了多体凯尔迪什交叉在直流驱动量子自旋系统中的普遍性。

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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Many-body Keldysh Crossover in the DC-driven Haldane Spin Chain

We theoretically study nonlinear processes driven by a DC spin-electric field in the antiferromagnetic spin-1 Heisenberg model starting from the ground state in the Haldane phase. The DC spin-electric field generates finite spin current and accumulation since the symmetry protected topological order is destroyed by the field. We find two microscopic mechanisms responsible for the breakdown and a crossover between them: In weak fields, tripron-antitripron pair creation occurs through the tunneling mechanism, and in strong fields, the system is described by an effective Hamiltonian breaking the protecting symmetries. We analyze the numerically obtained results in terms of the Dykhne--Davis--Pechukas theory and Floquet theory, verifying the universal picture of the many-body Keldysh crossover in the DC-driven quantum spin systems.

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arXiv - PHYS - Strongly Correlated Electrons

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