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Paper detail

Non-local interactions in moiré Hubbard systems

Moiré materials formed in two-dimensional semiconductor heterobilayers are quantum simulators of Hubbard-like physics with unprecedented electron-density and interaction-strength tunability. Compared to atomic scale Hubbard-like systems, electrons or holes in moiré materials are less strongly attracted to their effective lattice sites because these are defined by finite-depth potential extrema. As a consequence, non-local interaction terms like interaction-assisted hopping and intersite-exchange are more relevant. We theoretically demonstrate the possibility of tuning the strength of these coupling constants to favor unusual states of matter, including spin liquids, insulating ferromagnets, and superconductors.

preprint2022arXivOpen access
Nicolás Morales-DuránNai Chao HuPawel PotaszAllan H. MacDonald
cond-mat.str-el
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Nicolás Morales-DuránNai Chao HuPawel PotaszAllan H. MacDonald

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