Spectral crossovers in non-Hermitian spin chains: Comparison with random matrix theory

Ayana Sarkar, Sunidhi Sen, Santosh Kumar
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Abstract

We present a systematic investigation of the short-range spectral fluctuation properties of three non-Hermitian spin-chain Hamiltonians using complex spacing ratios (CSRs). Specifically, we focus on the non-Hermitian variants of the standard one-dimensional anisotropic XY model having intrinsic rotation-time ($\mathcal{RT}$) symmetry that has been explored analytically by Zhang and Song [Phys. Rev. A 87, 012114 (2013)]. The corresponding Hermitian counterpart is also exactly solvable and has been widely employed as a toy model in several condensed matter physics problems. We show that the presence of a random field along the $x$ direction together with the one along the $z$ direction facilitates integrability and $\mathcal{RT}$-symmetry breaking, leading to the emergence of quantum chaotic behavior. This is evidenced by a spectral crossover closely resembling the transition from Poissonian to Ginibre unitary ensemble (GinUE) statistics of random matrix theory. Additionally, we consider two phenomenological random matrix models in this paper to examine 1D Poisson to GinUE and 2D Poisson to GinUE crossovers and the associated signatures in CSRs. Here 1D and 2D Poisson correspond to real and complex uncorrelated levels, respectively. These crossovers reasonably capture spectral fluctuations observed in the spin-chain systems within a certain range of parameters.
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非厄米自旋链中的谱交叉:与随机矩阵理论的比较
本文用复间距比(CSRs)系统地研究了三个非厄米自旋链哈密顿子的短程谱涨落特性。具体来说,我们将重点放在具有固有旋转时间($\mathcal{RT}$)对称性的标准一维各向异性XY模型的非厄米变体上,该模型已被Zhang和Song [Phys]解析地探索过。[j].农业工程学报,2013,31(1)。相应的厄米对应物也是精确可解的,并被广泛用作几个凝聚态物理问题的玩具模型。我们证明沿x$方向的随机场和沿z$方向的随机场的存在有利于可积性和$\数学{RT}$对称性破缺,从而导致量子混沌行为的出现。这是由光谱交叉证明,非常类似于从泊松到吉尼布尔酉系综(GinUE)统计随机矩阵理论的过渡。此外,我们考虑了两个现象学随机矩阵模型来检验csr中的一维泊松到GinUE和二维泊松到GinUE交叉和相关签名。在这里,1D和2D泊松分别对应于实和复杂的不相关水平。这些交叉可以合理地捕捉到在一定参数范围内自旋链体系中观测到的光谱波动。
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