Related papers: Interaction effects in quantum geometry

Interaction effects in quantum geometry

URL: http://arxiv.org/abs/2412.02753v1
Date: Tue, 03 Dec 2024 19:00:03 GMT
Title: Interaction effects in quantum geometry
Authors: Pavlo Sukhachov, Niels Henrik Aase, Kristian Mæland, Asle Sudbø,
Abstract summary: We investigate the role of interaction effects on the quantum metric. We show that the repulsive Hubbard interaction monotonically suppresses the quantum metric. Our conclusion holds for both flat-band and dispersive systems.
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Abstract: Quantum geometry provides important information about the structure and topology of quantum states in various forms of quantum matter. The information contained therein has profound effects on observable quantities such as superconducting weight, Drude weight, and optical responses. Motivated by the recent advances in flat-band interacting systems, we investigate the role of interaction effects on the quantum metric. By using the fermionic Creutz ladder as a representative system, we show that the repulsive Hubbard interaction monotonically suppresses the quantum metric. While the eigenstates and their overlap quantifying the quantum metric can be obtained exactly in the presence of interactions through exact diagonalization, this method is limited to small system sizes. Alternatively, two theoretical proposals, the generalized quantum metric and the dressed quantum metric, suggest using renormalized Green's functions to define the interacting quantum metric. By comparing these analytical approaches with results from exact diagonalization, we show that the dressed quantum metric provides a better fit to the exact diagonalization results. Our conclusion holds for both flat-band and dispersive systems.

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