Danh-Phuong Nguyen scite author profile

Danh-Phuong Nguyen

2Publications

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99Citation Statements Given

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Affiliations

Laboratory Materials and Quantum Phenomena, Université Paris Cité

Publications

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Electron-photon Chern number in cavity-embedded 2D moiré materials

Nguyen¹,

Arwas²,

Lin³

et al. 2023

Preprint

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We explore theoretically how the topological properties of 2D materials can be manipulated by cavity quantum electromagnetic fields for both resonant and off-resonant electron-photon coupling, with a focus on van der Waals moiré superlattices. We investigate an electron-photon topological Chern number for the cavity-dressed energy minibands that is well defined for any degree of hybridization of the electron and photon states. While an off-resonant cavity mode can renormalize electronic topological phases that exist without cavity coupling, we show that when the cavity mode is resonant to electronic miniband transitions, new and higher electron-photon Chern numbers can emerge.

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Remote gate control of topological transitions in moiré superlattices via cavity vacuum fields

Lin

Xiao

Nguyen

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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Placed in cavity resonators with three-dimensionally confined electromagnetic wave, the interaction between quasiparticles in solids can be induced by exchanging virtual cavity photons, which can have a nonlocal characteristic. Here, we investigate the possibility of utilizing this nonlocality to realize the remote control of the topological transition in mesoscopic moiré superlattices at full filling (one electron/hole per supercell) embedded in a split-ring terahertz electromagnetic resonator. We show that gate tuning one moiré superlattice can remotely drive a topological band inversion in another moiré superlattice not in contact but embedded in the same cavity. Our study of remote on/off switching of a topological transition provides a paradigm for the control of material properties via cavity vacuum fields.

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