Landau polaritons in highly nonparabolic two-dimensional gases in the ultrastrong coupling regime

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Landau polaritons in highly nonparabolic two-dimensional gases in the ultrastrong coupling regime

Journal Article (2020)

Author(s)

Janine Keller (ETH Zürich)

Giacomo Scalari (ETH Zürich)

Felice Appugliese (ETH Zürich)

Shima Rajabali (ETH Zürich)

Mattias Beck (ETH Zürich)

Johannes Haase (Paul Scherrer Institut)

Christian A. Lehner (ETH Zürich)

Werner Wegscheider (ETH Zürich)

Michele Failla (University of Warwick)

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DOI related publication

https://doi.org/10.1103/PhysRevB.101.075301 Final published version

To reference this document use

https://resolver.tudelft.nl/uuid:5c71511c-126b-431d-8617-587009d675e3

More Info

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Publication Year

2020

Language

English

Issue number

7

Volume number

101

Article number

075301

Downloads counter

226

Abstract

We probe ultrastrong light-matter coupling between metallic terahertz metasurfaces and Landau-level transitions in high-mobility two-dimensional electron and hole gases. We utilize heavy-hole cyclotron resonances in strained Ge and electron cyclotron resonances in InSb quantum wells, both within highly nonparabolic bands, and compare our results to well-known parabolic AlGaAs/GaAs quantum well systems. Tuning the coupling strength of the system by two methods, lithographically and by optical pumping, we observe a behavior clearly deviating from the standard Hopfield model previously verified in cavity quantum electrodynamics: An opening of a lower polaritonic gap.