Light-induced transitions of valley Chern numbers and flat bands in a nontwisted moiré graphene–hexagonal boron nitride superlattice

Saud Alabdulal; Miftah Hadi Syahputra Anfa; Hocine Bahlouli; Michael Vogl

doi:10.1103/4ZCV-2C1N

Light-induced transitions of valley Chern numbers and flat bands in a nontwisted moiré graphene–hexagonal boron nitride superlattice

Saud Alabdulal
, Miftah Hadi Syahputra Anfa
, Hocine Bahlouli
, Michael Vogl

Research output: Contribution to journal › Article › peer-review

Abstract

Motivated by the rich topology and interesting quasiband structure of twisted moiré materials subjected to light, we study a nontwisted moiré material under the influence of light. Our work is in part motivated by a desire to find an easier-to-synthesize platform that can help experimentally elucidate the interesting physics of moiré materials coupled to light. Similar to twisted moiré materials, we uncover rich topology and interesting band flattening effects, which we summarize in relevant plots such as a topological phase diagram. Our work demonstrates that much of the interesting phenomenology of twisted moiré materials under the influence of electromagnetic waves seems to be generically present even in more experimentally accessible untwisted moiré platforms, which remain highly tunable by light.

Original language	English
Article number	195411
Journal	Physical Review B
Volume	112
Issue number	19
DOIs	https://doi.org/10.1103/4ZCV-2C1N
State	Published - 4 Aug 2025

Bibliographical note

Publisher Copyright:
© 2024 American Physical Society

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/4ZCV-2C1N

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title = "Light-induced transitions of valley Chern numbers and flat bands in a nontwisted moir{\'e} graphene–hexagonal boron nitride superlattice",

abstract = "Motivated by the rich topology and interesting quasiband structure of twisted moir{\'e} materials subjected to light, we study a nontwisted moir{\'e} material under the influence of light. Our work is in part motivated by a desire to find an easier-to-synthesize platform that can help experimentally elucidate the interesting physics of moir{\'e} materials coupled to light. Similar to twisted moir{\'e} materials, we uncover rich topology and interesting band flattening effects, which we summarize in relevant plots such as a topological phase diagram. Our work demonstrates that much of the interesting phenomenology of twisted moir{\'e} materials under the influence of electromagnetic waves seems to be generically present even in more experimentally accessible untwisted moir{\'e} platforms, which remain highly tunable by light.",

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AU - Alabdulal, Saud

AU - Syahputra Anfa, Miftah Hadi

AU - Bahlouli, Hocine

AU - Vogl, Michael

PY - 2025/8/4

Y1 - 2025/8/4

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Light-induced transitions of valley Chern numbers and flat bands in a nontwisted moiré graphene–hexagonal boron nitride superlattice

Abstract

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