Advanced Physics Research (Jul 2023)

Modified Dirac Fermions in the Crystalline Xenon and Graphene Moiré Heterostructure

  • Suji Im,
  • Hayoon Im,
  • Kyoo Kim,
  • Ji‐Eun Lee,
  • Jinwoong Hwang,
  • Sung‐Kwan Mo,
  • Choongyu Hwang

DOI
https://doi.org/10.1002/apxr.202200091
Journal volume & issue
Vol. 2, no. 7
pp. n/a – n/a

Abstract

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Abstract The interface between two‐dimensional (2D) crystals often forms a Moiré superstructure that imposes a new periodicity, which is a key element in realizing complex electronic phases as evidenced in twisted bilayer graphene. Acombined angle‐resolved photoemission spectroscopy measurements and first‐principles calculations reveal the formation of a Moiré superstructure between a 2D Dirac semi‐metallic crystal, graphene, and a 2D insulating crystal of noble gas, xenon. Incommensurate diffraction pattern and folded Dirac cones around the Brillouin zone center imply the formation of hexagonal crystalline array of xenon atoms. The velocity of Dirac fermions increases upon the formation of the 2D xenon crystal on top of graphene due to the enhanced dielectric screening by the xenon over‐layer. These findings not only provide a novel method to produce a Moiré superstructure from the adsorption of noble gas on 2D materials, but also to control the physical properties of graphene by the formation of a graphene‐noble gas interface.

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