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Quantum Algorithms
Quasiperiodicity protects quantized transport in disordered systems without gaps
arXiv
Authors: Emmanuel Gottlob, Dan S. Borgnia, Robert-Jan Slager, Ulrich Schneider
Year
2024
Paper ID
65592
Status
Preprint
Abstract Read
~2 min
Abstract Words
128
Citations
N/A
Abstract
The robustness of topological properties, such as quantized currents, generally depends on the existence of gaps surrounding the relevant energy levels or on symmetry-forbidden transitions. Here, we observe quantized currents that survive the addition of bounded local disorder beyond the closing of the relevant instantaneous energy gaps in a driven Aubry-André-Harper chain, a prototypical model of quasiperiodic systems. We explain the robustness using a local picture in configuration-space based on Landau-Zener transitions, which rests on the Anderson localisation of the eigenstates. Moreover, we propose a protocol, directly realizable in for instance cold atoms or photonic experiments, which leverages this stability to prepare topological many-body states with high Chern numbers and opens new experimental avenues for the study of both the integer and fractional quantum Hall effects.
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- It adds a 2024 reference point for readers tracking recent quantum research.
- The robustness of topological properties, such as quantized currents, generally depends on the existence of gaps surrounding the relevant energy levels or on symmetry-forbidden...
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