Optical Phase Transition in Semiconductor Quantum Metamaterials

Unexpected light propagation effects, such as negative refraction, have been reported in artificial media. Leveraging on the intersubband resonances in heterostructured semiconductors, we show that all possible optical regimes, ranging from classical dieletric and metal to hyperbolic metamaterial ty...

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Veröffentlicht in:	Physical review letters 2019-09, Vol.123 (11), p.1, Article 117401
Hauptverfasser:	Hierro, Adrian, Montes Bajo, Miguel, Ferraro, Mario, Tamayo-Arriola, Julen, Le Biavan, Nolwenn, Hugues, Maxime, Ulloa, Jose M., Giudici, Massimo, Chauveau, Jean-Michel, Genevet, Patrice
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Sprache:	eng
Schlagworte:	Metamaterials Phase transitions Physics Quantum confinement Refraction
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creator	Hierro, Adrian Montes Bajo, Miguel Ferraro, Mario Tamayo-Arriola, Julen Le Biavan, Nolwenn Hugues, Maxime Ulloa, Jose M. Giudici, Massimo Chauveau, Jean-Michel Genevet, Patrice
description	Unexpected light propagation effects, such as negative refraction, have been reported in artificial media. Leveraging on the intersubband resonances in heterostructured semiconductors, we show that all possible optical regimes, ranging from classical dieletric and metal to hyperbolic metamaterial types 1 and 2, can be achieved. As a demonstration, we prove that the negative refraction effect can occur at a designed frequency by controlling the electronic quantum confinement.
doi_str_mv	10.1103/PhysRevLett.123.117401
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subjects	Metamaterials Phase transitions Physics Quantum confinement Refraction
title	Optical Phase Transition in Semiconductor Quantum Metamaterials
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