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Abstract Interacting many-body systems in reduced-dimensional settings, such as ladders and few-layer systems, are characterized by enhanced quantum fluctuations. Recently, two-dimensional bilayer systems have sparked considerable interest because they can host unusual phases, including unconventional superconductivity. Here we present a theoretical proposal for realizing high-temperature pairing of fermions in a class of bilayer Hubbard models. We introduce a general and highly efficient pairing mechanism for mobile charge carriers in doped antiferromagnetic Mott insulators. The pairing is caused by the energy that one charge gains when it follows the path created by another charge. We show that this mechanism leads to the formation of highly mobile but tightly bound pairs in the case of mixed-dimensional Fermi–Hubbard bilayer systems. This setting is closely related to the Fermi–Hubbard model believed to capture the physics of copper oxides, and can be realized in currently available ultracold atom experiments.more » « less
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Halimeh, Jad C. ; Homeier, Lukas ; Zhao, Hongzheng ; Bohrdt, Annabelle ; Grusdt, Fabian ; Hauke, Philipp ; Knolle, Johannes ( , PRX Quantum)
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Davis, Emily J. ; Bentsen, Gregory ; Homeier, Lukas ; Li, Tracy ; Schleier-Smith, Monika H. ( , Physical Review Letters)
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Bentsen, Gregory ; Davis, Emily J. ; Periwal, Avikar ; Cooper, Eric ; Homeier, Lukas ; Van Kirk, Katherine ; Schleier-Smith, Monika H. ( , Proceedings of SPIE)