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arxiv: 2303.17135 · v2 · pith:O2SJTRN5 · submitted 2023-03-30 · physics.optics · cond-mat.mes-hall· math-ph· math.MP

Classifying topology in photonic heterostructures with gapless environments

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classification physics.optics cond-mat.mes-hallmath-phmath.MP
keywords topologicalgaplessmaterialslocalphotonicprotectionboundary-localizedbulk-boundary
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Photonic topological insulators exhibit bulk-boundary correspondence, which requires that boundary-localized states appear at the interface formed between topologically distinct insulating materials. However, many topological photonic devices share a boundary with free space, which raises a subtle but critical problem as free space is gapless for photons above the light-line. Here, we use a local theory of topological materials to resolve bulk-boundary correspondence in heterostructures containing gapless materials and in radiative environments. In particular, we construct the heterostructure's spectral localizer, a composite operator based on the system's real-space description that provides a local marker for the system's topology and a corresponding local measure of its topological protection; both quantities are independent of the material's bulk band gap (or lack thereof). Moreover, we show that approximating radiative outcoupling as material absorption overestimates a heterostructure's topological protection. As the spectral localizer is applicable to systems in any physical dimension and in any discrete symmetry class, our results show how to calculate topological invariants, quantify topological protection, and locate topological boundary-localized resonances in topological materials that interface with gapless media in general.

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