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Non‐Adiabatic Transitions in Parabolic and Super‐Parabolic PT‐Symmetric Non‐Hermitian Systems in 1D Optical Waveguides
Annalen Der Physik ( IF 2.2 ) Pub Date : 2021-01-18 , DOI: 10.1002/andp.202000349 Chon‐Fai Kam 1 , Yang Chen 1
Annalen Der Physik ( IF 2.2 ) Pub Date : 2021-01-18 , DOI: 10.1002/andp.202000349 Chon‐Fai Kam 1 , Yang Chen 1
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Exceptional points, which are spectral degeneracy points in the complex parameter space, are fundamental to non‐Hermitian quantum systems. The dynamics of non‐Hermitian systems in the presence of exceptional points differ significantly from those of Hermitian ones. Here, non‐adiabatic transitions in non‐Hermitian ‐symmetric systems are investigated, in which the exceptional points are driven through at finite speeds which are quadratic or cubic functions of time. Different transmission dynamics separated by exceptional points are identified, and analytical approximate formulas for the non‐adiabatic transmission probabilities are derived. Possible experimental realizations with a ‐symmetric non‐Hermitian 1D tight‐binding optical waveguide lattice are discussed through non‐Hermitian Bloch oscillations between different bands.
中文翻译:
一维光波导中抛物线和超抛物线PT对称非Hermitian系统的非绝热跃迁
异常点是复参数空间中的光谱退化点,是非埃尔米特量子系统的基础。在存在例外点的情况下,非Hermitian系统的动力学与Hermitian系统的动力学存在显着差异。在这里,非厄米特族的非绝热转变研究了对称系统,其中例外点以有限的速度被驱动,速度是时间的二次或三次函数。确定了由例外点分开的不同传输动力学,并推导了非绝热传输概率的解析近似公式。可能的实验实现通过不同频带之间的非Hermitian Bloch振荡,讨论了对称的非Hermitian一维紧束缚光波导晶格。
更新日期:2021-02-10
中文翻译:
一维光波导中抛物线和超抛物线PT对称非Hermitian系统的非绝热跃迁
异常点是复参数空间中的光谱退化点,是非埃尔米特量子系统的基础。在存在例外点的情况下,非Hermitian系统的动力学与Hermitian系统的动力学存在显着差异。在这里,非厄米特族的非绝热转变研究了对称系统,其中例外点以有限的速度被驱动,速度是时间的二次或三次函数。确定了由例外点分开的不同传输动力学,并推导了非绝热传输概率的解析近似公式。可能的实验实现通过不同频带之间的非Hermitian Bloch振荡,讨论了对称的非Hermitian一维紧束缚光波导晶格。
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