Schamriss, L. scite author profile

Schamriss, L.

2Publications

9Citation Statements Received

143Citation Statements Given

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University of Erlangen-Nuremberg

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Effective theory of lattice electrons strongly coupled to quantum electromagnetic fields

Eckstein

2022

Phys. Rev. B

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Recent experiments have revealed the tantalizing possibility of fabricating lattice electronic systems strongly coupled to quantum fluctuations of electromagnetic fields, e.g., by means of geometry confinement from a cavity or artificial gauge fields in quantum simulators. In this work, we develop a high-frequency expansion to construct the effective models for lattice electrons strongly coupled to a continuum of off-resonant photon modes with arbitrary dispersion. The theory is nonperturbative in the light-matter coupling strength and is therefore particularly suitable for the ultrastrong light-matter coupling regime. Using the effective models, we demonstrate how the dispersion and topology of the electronic energy bands can be tuned by the cavity. In particular, quasi-one-dimensional physics can emerge in a two-dimensional square lattice due to a spatially anisotropic band renormalization, and a topologically nontrivial anomalous quantum Hall state can be induced in a honeycomb lattice when the cavity setup breaks time-reversal symmetry. We also demonstrate that the photon-mediated interaction induces an unconventional superconducting paired phase distinct from the pair-density-wave state discussed in models with truncated light-matter coupling. Finally, we study a realistic setup of a Fabry-Pérot cavity. Our work provides a systematic framework to explore the emergent phenomena due to strong light-matter coupling and points out alternative directions of engineering orders and topological states in solids.

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Quantum phase transitions in the K -layer Ising toric code

Lenke

Mühlhauser

et al. 2022

Phys. Rev. B

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Schamriss, L.

Effective theory of lattice electrons strongly coupled to quantum electromagnetic fields

Quantum phase transitions in the K -layer Ising toric code

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