Ferrimagnetism of ultracold fermions in a multi-band Hubbard system

Alexander Nikolaenko, Anant Kale, Lev Haldar Kendrick, Markus Greiner, Martin Lebrat, Muqing Xu, Pietro M. Bonetti, Subir Sachdev, Youqi Gang

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classification ❄️ cond-mat.quant-gas cond-mat.str-elquant-ph

keywords modelsinteractionslatticeliebmaterialsmulti-bandquantumspin

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Strongly correlated materials feature multiple electronic orbitals which are crucial to accurately understand their many-body properties, from cuprate materials to twisted bilayer graphene. In such multi-band models, quantum interference can lead to dispersionless bands whose large degeneracy gives rise to itinerant magnetism even with weak interactions. Here, we report on signatures of a ferrimagnetic state realized in a Lieb lattice at half-filling, characterized by antialigned magnetic moments with antiferromagnetic correlations, concomitant with a finite spin polarization. We demonstrate their robustness when increasing repulsive interactions from the non-interacting to the Heisenberg regime, and study their emergence when continuously tuning the lattice unit cell from a square to a Lieb geometry. Our work paves the way towards exploring exotic phases in related multi-orbital models such as quantum spin liquids in kagome lattices and heavy fermion behavior in Kondo models.

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