\begin{document}$\nu$\end{document} can be calculated by the measured Laplacian, which are consistent with the theoretical prediction, showing \begin{document}$\nu=\pm 1$\end{document} for non-Hermitian topological regimes with complex eigenenergies and extended eigenstates, and \begin{document}$\nu=0$\end{document} for topologically trivial regimes with real eigenenergies and localized eigenstates. In Sec V, for the circuit under OBCs, a similar method is used for measuring the node distribution of voltage response, which simulates the competition of non-Hermitian skin effects and the Anderson localization, depending on the strength of quasiperiodic potentials; the phase transition points also appear in the inverse participation ratios of voltage responses. During the design process, the parameters of auxiliary resistors and capacitors are evaluated for obtaining stable responses, because the complex eigenfrequecies of the circuits are inevitable under PBCs. Our detailed scheme can directly instruct further potential experiments, and the designing method of the electrical circuit is universal and can in principle be applied to the simulation for other quantum tight-binding models. "> - 必威体育下载

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Cheng En-Hong, Lang Li-Jun
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  • Abstract views:5464
  • PDF Downloads:300
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Publishing process
  • Received Date:30 January 2022
  • Accepted Date:24 March 2022
  • Available Online:04 August 2022
  • Published Online:20 August 2022

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