Robust Topological Feature against Non-Hermiticity in Jaynes–Cummings Model

IF 4.4 Q1 OPTICS Advanced quantum technologies Pub Date : 2024-04-21 DOI:10.1002/qute.202400053
Zu-Jian Ying
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Abstract

The Jaynes–Cummings Model (JCM) is a fundamental model and building block for light-matter interactions, quantum information and quantum computation. The present work analytically analyzes the topological feature manifested by the JCM in the presence of non-Hermiticity which may arise from dissipation and decay rates. Indeed, the eigenstates of the JCM are topologically characterized by spin windings in 2D plane. The non-Hermiticity tilts the spin-winding plane and induces an out-of-plane component, while the topological feature is maintained. In particular, besides the invariant spin texture nodes, the study reveals a non-Hermiticity-induced reversal transition of the tilting angle and spin winding direction with a fractional phase gain at gap closing, a partially level-independent reversal transition without gap closing, and a completely level-independent super-invariant point with untilted angle and also without gap closing. The result demonstrates that the topological feature is robust against non-Hermiticity, which may be favorable in practical applications. On the other hand, one may conversely make use of the disadvantageous dissipation and decay rates to reverse the spin winding direction, which may add a controlled way for topological manipulation of quantum systems in light-matter interactions.

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针对杰尼斯-康明斯模型非恒定性的稳健拓扑特征
杰恩斯-康明斯模型(JCM)是光物质相互作用、量子信息和量子计算的基本模型和构件。本研究分析了杰恩斯-康明斯模型在非恒定性情况下的拓扑特征,非恒定性可能源于耗散和衰变率。事实上,JCM 的特征态拓扑特征是二维平面上的自旋缠绕。非恒定性会使自旋缠绕平面倾斜,并诱发平面外分量,同时拓扑特征得以保持。特别是,除了不变的自旋纹理节点外,研究还揭示了非恒定性诱导的倾斜角和自旋缠绕方向的反转转变,在间隙闭合时有部分相位增益;部分水平无关的反转转变,没有间隙闭合;完全水平无关的超不变点,有倾斜角,也没有间隙闭合。结果表明,拓扑特征对非恒定性是稳健的,这在实际应用中可能是有利的。另一方面,人们也可以反过来利用不利的耗散和衰变率来逆转自旋缠绕方向,这可能为光物相互作用中的量子系统拓扑操纵增加了一种可控的途径。
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期刊最新文献
Back Cover: Universal Quantum Fisher Information and Simultaneous Occurrence of Landau-Class and Topological-Class Transitions in Non-Hermitian Jaynes-Cummings Models (Adv. Quantum Technol. 10/2024) Front Cover: Solid-State Qubit as an On-Chip Controller for Non-Classical Field States (Adv. Quantum Technol. 10/2024) Inside Front Cover: Nonlinear Effect Analysis and Sensitivity Improvement in Spin Exchange Relaxation Free Atomic Magnetometers (Adv. Quantum Technol. 10/2024) Issue Information (Adv. Quantum Technol. 10/2024) Front Cover: Superconducting Diode Effect in a Constricted Nanowire (Adv. Quantum Technol. 9/2024)
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