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Signature of edge states in resonant wave scattering

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arxiv 2203.00824 v1 pith:LYUT5ECV submitted 2022-03-02 quant-ph

Signature of edge states in resonant wave scattering

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keywords scatteringedgeresonantsignaturestatestatestransmissionaddition
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Particle beam scattering is a conventional technique for detecting the nature of matter. We studied the scattering problem of a cluster connected to multiple leads. We established the connection between the eigenstate of the topological scattering center and the transmission and reflection amplitudes for the resonant scattering process. We discovered that as an application, this approach enables the detection of the edge state in the band gap for both Hermitian and non-Hermitian systems and the identification of the topology of a system. We investigated two types of Su-Schrieffer-Heeger chains as examples. In addition, we proposed a dynamic scheme through an evanescently coupled-waveguide array to detect the edge state on the basis of measured transmission intensity. Numerical simulation revealed that pattern visibility can be the signature of the edge states.

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