Relating the Hall conductivity to the many-body Chern number using Fermi’s Golden rule and Kramers–Kronig relations

Relating the Hall conductivity to the many-body Chern number using Fermi’s Golden rule and Kramers–Kronig relations

This work provides a surprisingly simple demonstration that the quantized Hall conductivity of correlated insulators is given by the many-body Chern number, a topological invariant defined in the space of twisted boundary conditions. In contrast to conventional proofs, generally based on the Kubo fo...

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Bibliographic Details
Main Authors: Goldman, Nathan, Ozawa, Tomoki
Format: Article
Language:English
Published: Académie des sciences 2024-09-01
Series:Comptes Rendus. Physique
Subjects:
quantum Hall effect
topological quantum matter
quantum gases
Kramers–Kronig relations
quantized responses
circular dichroism
many-body Chern number
correlated topological insulators
Online Access:https://comptes-rendus.academie-sciences.fr/physique/articles/10.5802/crphys.191/
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Summary:This work provides a surprisingly simple demonstration that the quantized Hall conductivity of correlated insulators is given by the many-body Chern number, a topological invariant defined in the space of twisted boundary conditions. In contrast to conventional proofs, generally based on the Kubo formula, our approach entirely relies on combining Kramers–Kronig relations and Fermi’s golden rule within a circular-dichroism framework. This pedagogical derivation illustrates how the Hall conductivity of correlated insulators can be determined by monitoring single-particle excitations upon a circular drive, a conceptually simple picture with direct implications for quantum-engineered systems, where excitation rates can be directly monitored.
ISSN:1878-1535

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