Crystal-field effects in the formation of Wigner-molecule supercrystals in moir\'e TMD superlattices
| Autor: | Yannouleas, Constantine, Landman, Uzi |
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| Rok vydání: | 2024 |
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| Druh dokumentu: | Working Paper |
| Popis: | For moir\'e bilayer TMD superlattices, full-configuration-interaction (FCI) calculations are presented that take into account both the intra-moir\'e-quantum-dot (MQD) charge-carrier Coulombic interactions, as well as the crystal-field effect from the surrounding moir\'e pockets (inter-moir\'e-QD interactions). Such FCI calculations enable an effective computational embedding strategy and allow for a complete interpretation of the counterintuitive experimental observations reported recently in the context of moir\'e TMD superlattices at integer fillings $\nu=2$ and 4. Two novel states of matter are reported: (i) a genuinely quantum-mechanical supercrystal of {\it sliding\/} Wigner molecules (WMs) for unstrained moir\'e TMD materials (when the crystal field is commensurate with the trilobal symmetry of the confining potential in each embedded MQD) and (ii) a supercrystal of {\it pinned\/} Wigner molecules when strain is involved and the crystal field is incommensurate with the trilobal symmetry of the confining potential in each embedded MQD. The case of $\nu=3$ is an exception, in that both unstrained and strained cases produce a supercrystal of pinned WMs, which is due to the congruence of intrinsic (that of the WM) and external (that of the confining potential of the MQD) $C_3$ point-group symmetries. Furthermore, it is shown that the unrestricted Hartree-Fock approach fails to describe the supercrystal of sliding WMs in the unstrained case, providing a qualitative agreement only in the case of a supercrystal of pinned WMs Comment: 7 pages, 4 color figures. For similar papers, see https://sites.gatech.edu/cyannouleas/. arXiv admin note: text overlap with arXiv:2403.12262 |
| Databáze: | arXiv |
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