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Perpendicular electric field drives Chern transitions and layer polarization changes in Hofstadter bands. | LitMetric

AI Article Synopsis

  • Moiré superlattices, particularly in twisted double bilayer graphene (TDBG), are being studied for their ability to manipulate band properties and exhibit fractal energy spectra known as the Hofstadter butterfly.
  • The research focuses on how moiré band topology affects Hofstadter physics, revealing Chern state switching in response to changes in an electric field, leading to sequential shifts in Chern numbers.
  • The findings highlight the importance of charge polarization and suggest that layer polarization influences topological states in few-layer systems, positioning TDBG as a promising platform for studying Hofstadter physics with unique magnetoelectric properties.

Article Abstract

Moiré superlattices engineer band properties and enable observation of fractal energy spectra of Hofstadter butterfly. Recently, correlated-electron physics hosted by flat bands in small-angle moiré systems has been at the foreground. However, the implications of moiré band topology within the single-particle framework are little explored experimentally. An outstanding problem is understanding the effect of band topology on Hofstadter physics, which does not require electron correlations. Our work experimentally studies Chern state switching in the Hofstadter regime using twisted double bilayer graphene (TDBG), which offers electric field tunable topological bands, unlike twisted bilayer graphene. Here we show that the nontrivial topology reflects in the Hofstadter spectra, in particular, by displaying a cascade of Hofstadter gaps that switch their Chern numbers sequentially while varying the perpendicular electric field. Our experiments together with theoretical calculations suggest a crucial role of charge polarization changing concomitantly with topological transitions in this system. Layer polarization is likely to play an important role in the topological states in few-layer twisted systems. Moreover, our work establishes TDBG as a novel Hofstadter platform with nontrivial magnetoelectric coupling.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9758152PMC
http://dx.doi.org/10.1038/s41467-022-35421-zDOI Listing

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