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    Please use this identifier to cite or link to this item: https://ir.lib.ncu.edu.tw/handle/987654321/97644


    Title: 非厄米特三階方形拓樸電路系統之研究;The Research of Non-Hermitian Third-Order Topological Square-Lattice Electric Circuit Systems
    Authors: 吳崇瑋;Wu, Chung-Wei
    Contributors: 光電科學與工程學系
    Keywords: 拓樸;非厄米特;三階方形;電路;Topological;Non-Hermitian;Third-Order;Circuit Systems
    Date: 2025-07-07
    Issue Date: 2025-10-17 11:43:09 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 本論文研究利用拓樸學的物理特性,探討二維三階非厄米特拓樸絕緣體 (third-order Non-Hermitian topological insulator)。 首先說明厄米特與非厄米特拓 樸矩陣的差異,進一步比較一維與二維系統的特性,並從開邊界條件觀察邊界 態,藉由週期邊界條件找出對應的晶格結構。接著,我們在方形結構中加入電路 元件以實現拓樸絕緣體,將原本每兩個節點間的電容與電阻並聯改為串聯。利用 克希荷夫電路定律(Kirchhoff′s circuit laws)推導出哈密頓矩陣(Hamiltonian matrix), 得到三階非厄米特矩陣,進而解出其本徵值(eigenvalue)與本徵向量 (eigenvector)。 最後觀察此電路系統模態(modes)的變化,並分析其邊緣態與 角態是否存在。;This thesis explores the use of topological physics to study a two-dimensional third order non-Hermitian topological insulator. We begin by explaining the differences between Hermitian and non-Hermitian topological matrices, then compare the characteristics of one-dimensional and two-dimensional systems. Boundary states are examined under open boundary conditions, while the corresponding lattice structure is identified using periodic boundary conditions. Next, a square structure is constructed with circuit elements to realize the topological insulator, where the originally parallel connection of capacitors and resistors between each pair of nodes is changed to a series connection. Kirchhoff′s circuit laws are applied to derive the Hamiltonian matrix, resulting in a third-order non-Hermitian matrix. The eigenvalues and eigenvectors are then obtained. Finally, we observe changes in the system’s modes and analyze the existence of edge and corner states.
    Appears in Collections:[Graduate Institute of Optics and Photonics] Electronic Thesis & Dissertation

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