Four-fold non-Hermitian phase transitions and non-reciprocal coupled resonator optical waveguides

• URL: http://arxiv.org/abs/2202.12110v4
• Date: Sat, 24 Feb 2024 05:02:29 GMT
• Title: Four-fold non-Hermitian phase transitions and non-reciprocal coupled resonator optical waveguides
• Authors: Xintong Zhang, Jing Li
• Abstract summary: Non-Hermitian systems can exhibit extraordinary sensitivity to boundary conditions. We show four-fold non-Hermitian phase transitions at a mathematically level. The introduction of non-Hermiticity in the photonic structure induces a phenomenon similar to band inversion in topological insulators.
• Score: 3.1850615666574806
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Non-Hermitian systems can exhibit extraordinary sensitivity to boundary conditions. Given that topological boundary modes and non-Hermitian skin effects can either coexist or individually appear in non-Hermitian systems, it is of great value to present a comprehensive non-Hermitian phase diagram, for further flexible control in realistic non-Hermitian systems. Here, we reveal four-fold non-Hermitian phase transitions at a mathematically level, where phase I exhibits only topological boundary modes, phase II displays both topological boundary modes and skin modes, phase III exhibits only skin modes, and phase IV cannot manifest any boundary modes. By deriving non-Hermitian winding numbers, the existence or non-existence condition of topological boundary modes are analytically expressed, consistent with the numerical results obtained through the iterative Green's function method. Combining with the study on non-Hermitian skin effects, we rigorously establish the four-fold phase diagram. We also design an array of coupled resonator optical waveguides. The introduction of non-Hermiticity in the photonic structure induces a phenomenon similar to band inversion in topological insulators, indicating the presence of topological boundary modes in the photonic bands.

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