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Topologically protected defect states in open photonic systems with non-hermitian charge-conjugation and parity-time symmetry

We show that topologically protected defect states can exist in open (leaky or lossy) systems even when these systems are topologically trivial in the closed limit. The states appear from within the continuum, thus in absence of a band gap, and are generated via exceptional points (a spectral transition that occurs in open wave and quantum systems with a generalized time-reversal symmetry), or via a degeneracy induced by charge-conjugation-symmetry (which is related to the pole transition of Majorana zero modes). We demonstrate these findings for a leaking passive coupled-resonator optical waveguide with asymmmetric internal scattering, where the required symmetries (non-hermitian versions of time-reversal symmetry, chirality and charge-conjugation) emerge dynamically.

preprint2015arXivOpen access
Simon MalzardCharles PoliHenning Schomerus
cond-mat.mes-hallphysics.optics
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Simon MalzardCharles PoliHenning Schomerus

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