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Scattering theory of
topologically protected edge transport
Binglu Chen and Guillaume Bal |
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Vol. 7 (2025), No. 3, 701–731
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Abstract |
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We develop a scattering theory for the asymmetric transport observed at interfaces separating two-dimensional topological insulators. Starting from the spectral decomposition of an unperturbed interface Hamiltonian, we present a limiting absorption principle and construct a generalized eigenfunction expansion for perturbed systems. We then relate a physical observable quantifying the transport asymmetry to the scattering matrix associated to the generalized eigenfunctions. In particular, we show that the observable is concretely expressed as a difference of transmission coefficients and is stable against perturbations. We apply the theory to systems of perturbed Dirac equations with asymptotically linear domain wall. |
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Keywords
scattering theory, spectral theory, topological insulators,
asymmetric edge transport, edge current observable, Dirac
operator
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Mathematical Subject Classification
Primary: 35P25, 47A53, 81Q05, 81U20
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Milestones
Received: 14 June 2024
Revised: 12 April 2025
Accepted: 17 June 2025
Published: 6 August 2025
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Authors |
| Binglu Chen | |
| Department of Mathematics University of Chicago Chicago, IL United States |
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| Guillaume Bal | |
| Departments of Statistics and
Mathematics University of Chicago Chicago, IL United States |
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| © 2025 MSP (Mathematical Sciences Publishers). |
