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Main Authors: Zhang, Ruoyu, Nathan, Frederik, Lindner, Netanel H., Rudner, Mark S.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.18776
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author Zhang, Ruoyu
Nathan, Frederik
Lindner, Netanel H.
Rudner, Mark S.
author_facet Zhang, Ruoyu
Nathan, Frederik
Lindner, Netanel H.
Rudner, Mark S.
contents Due to photon-assisted transport processes, chiral edge modes induced by periodic driving do not directly mediate quantized transport. Here we show how narrow bandwidth "energy filters" can restore quantization by suppressing photon assisted transport through Floquet sidebands. We derive a Floquet Landauer type equation to describe transport through such an energy-filtered setup, and show how the filter can be integrated out to yield a sharply energy-dependent renormalized system-lead coupling. We show analytically and through numerical simulations that a nearly quantized conductance can be achieved in both off-resonantly and resonantly induced quasienergy gaps when filters are introduced. The conductance approaches the appropriate quantized value on each plateau with increasing system and filter size. We introduce a "Floquet distribution function" and show both analytically and numerically that it approaches the equilibrium Fermi-Dirac form when narrow-band filters are introduced, highlighting the mechanism that restores quantized transport.
format Preprint
id arxiv_https___arxiv_org_abs_2402_18776
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Achieving quantized transport in Floquet topological insulators via energy filters
Zhang, Ruoyu
Nathan, Frederik
Lindner, Netanel H.
Rudner, Mark S.
Mesoscale and Nanoscale Physics
Quantum Physics
Due to photon-assisted transport processes, chiral edge modes induced by periodic driving do not directly mediate quantized transport. Here we show how narrow bandwidth "energy filters" can restore quantization by suppressing photon assisted transport through Floquet sidebands. We derive a Floquet Landauer type equation to describe transport through such an energy-filtered setup, and show how the filter can be integrated out to yield a sharply energy-dependent renormalized system-lead coupling. We show analytically and through numerical simulations that a nearly quantized conductance can be achieved in both off-resonantly and resonantly induced quasienergy gaps when filters are introduced. The conductance approaches the appropriate quantized value on each plateau with increasing system and filter size. We introduce a "Floquet distribution function" and show both analytically and numerically that it approaches the equilibrium Fermi-Dirac form when narrow-band filters are introduced, highlighting the mechanism that restores quantized transport.
title Achieving quantized transport in Floquet topological insulators via energy filters
topic Mesoscale and Nanoscale Physics
Quantum Physics
url https://arxiv.org/abs/2402.18776