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  Moiré heterostructures as a condensed-matter quantum simulator

Kennes, D. M., Claassen, M., Xian, L. D., Georges, A., Millis, A. J., Hone, J., et al. (2021). Moiré heterostructures as a condensed-matter quantum simulator. Nature Physics, 17(2), 155-163. doi:10.1038/s41567-020-01154-3.

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https://dx.doi.org/10.1038/s41567-020-01154-3 (Publisher version)
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 Creators:
Kennes, D. M.1, 2, 3, Author              
Claassen, M.4, 5, Author
Xian, L. D.2, 3, 6, Author              
Georges, A.4, 7, 8, 9, Author
Millis, A. J.4, 10, Author
Hone, J.11, Author
Dean, C. R.10, Author
Basov, D. N.10, Author
Pasupathy, A. N.10, Author
Rubio, A.2, 3, 4, 12, Author              
Affiliations:
1Institut für Theorie der Statistischen Physik, RWTH Aachen University and JARA-Fundamentals of Future Information Technology, ou_persistent22              
2Theory Group, Theory Department, Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society, ou_2266715              
3Center Free-Electron Laser Science, ou_persistent22              
4Center for Computational Quantum Physics, Flatiron Institute, ou_persistent22              
5Department of Physics and Astronomy, University of Pennsylvania, ou_persistent22              
6Songshan Lake Materials Laboratory, ou_persistent22              
7Collège de France, ou_persistent22              
8CPHT, CNRS, Ècole Polytechnique, IP Paris, ou_persistent22              
9DQMP, Universitè de Genève, ou_persistent22              
10Department of Physics, Columbia University, New York, ou_persistent22              
11Department of Mechanical Engineering, Columbia University, New York, ou_persistent22              
12Nano-Bio Spectroscopy Group, Universidad del País Vasco UPV/EHU, San Sebastian, ou_persistent22              

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 Abstract: Twisted van der Waals heterostructures have latterly received prominent attention for their many remarkable experimental properties and the promise that they hold for realizing elusive states of matter in the laboratory. We propose that these systems can, in fact, be used as a robust quantum simulation platform that enables the study of strongly correlated physics and topology in quantum materials. Among the features that make these materials a versatile toolbox are the tunability of their properties through readily accessible external parameters such as gating, straining, packing and twist angle; the feasibility to realize and control a large number of fundamental many-body quantum models relevant in the field of condensed-matter physics; and finally, the availability of experimental readout protocols that directly map their rich phase diagrams in and out of equilibrium. This general framework makes it possible to robustly realize and functionalize new phases of matter in a modular fashion, thus broadening the landscape of accessible physics and holding promise for future technological applications.

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Language(s): eng - English
 Dates: 2020-05-232020-12-142021-02-012021-02
 Publication Status: Published in print
 Pages: 9
 Publishing info: -
 Table of Contents: -
 Rev. Type: Peer
 Identifiers: DOI: 10.1038/s41567-020-01154-3
arXiv: 2011.12638
 Degree: -

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Title: Nature Physics
  Other : Nat. Phys.
Source Genre: Journal
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Publ. Info: London : Nature Pub. Group
Pages: - Volume / Issue: 17 (2) Sequence Number: - Start / End Page: 155 - 163 Identifier: ISSN: 1745-2473
CoNE: https://pure.mpg.de/cone/journals/resource/1000000000025850