Mixing of surface and bulk electronic states at a graphite-hexagonal boron nitride interface

Ciaran Mullan; Sergey Slizovskiy; Yin Jun; Ziwei Wang; Qian Yang; Shuigang Xu; Yaping Yang; B. A. Piot; Sheng Hu; Takashi Taniguchi; Kenji Watanabe; Konstantin ‘kostya’ Novoselov; A. K. Geim; Vladimir I. Fal’ko; Artem Mishchenko

doi:10.48550/arxiv.2211.16420

Abstract

1 min read

Van der Waals assembly enables exquisite design of electronic states in two-dimensional (2D) materials, often by superimposing a long-wavelength periodic potential on a crystal lattice using moiré superlattices. Here we show that electronic states in three-dimensional (3D) crystals such as graphite can also be tuned by the superlattice potential arising at the interface with another crystal, namely, crystallographically aligned hexagonal boron nitride. Such alignment is found to result in a multitude of Lifshitz transitions and Brown-Zak oscillations for near-surface 2D states whereas, in high magnetic fields, fractal states of Hofstadter's butterfly extend deep into graphite's bulk. Our work shows a venue to control 3D spectra by using the approach of 2D twistronics.

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