Title Emergent topological properties in spatially modulated sub-wavelength-barrier lattices
Authors Žlabys, Giedrius ; He, Wen-Bin ; Burba, Domantas ; Nair, Sarika Sasidharan ; Busch, Thomas ; Ozawa, Tomoki
DOI 10.1103/gf47-yh4z
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Is Part of Physical review A.. College Park : American Physical Society. 2026, vol. 113, iss. 4, art. no. 043301, p. 1-10.. ISSN 2469-9926. eISSN 2469-9934
Abstract [eng] We investigate topological phenomena in a spatially modulated Dirac-3 lattice, where the scattering potential varies periodically in space. Changing the potential modulation frequency leads to Hofstadter’s butterfly-like energy spectrum and enables the emergence of topological transport regimes characterized by nontrivial Chern numbers. We show how the considered modulated system is connected to the Hofstadter model via the Harper equation. By adiabatically varying spatial modulation parameters, we demonstrate controllable quantum transport and verify the topological nature of these effects through Wannier center displacement and bulk invariant calculations. We also propose an experimentally feasible realization of such a system using optically controlled three-level atoms. Our findings showcase spatially engineered Kronig-Penney-type systems as versatile platforms for investigating and exploiting different topological quantum transport regimes.
Published College Park : American Physical Society
Type Journal article
Language English
Publication date 2026
CC license CC license description