Spin-Orbit Coupling for Photons and Polaritons in Microstructures

Spin-Orbit Coupling for Photons and Polaritons in Microstructures

We use coupled micropillars etched out of a semiconductor microcavity to engineer a spin-orbit Hamiltonian for photons and polaritons in a microstructure. The coupling between the spin and orbital momentum arises from the polarization-dependent confinement and tunneling of photons between adjacent m...

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Main Authors: V. G. Sala, D. D. Solnyshkov, I. Carusotto, T. Jacqmin, A. Lemaître, H. Terças, A. Nalitov, M. Abbarchi, E. Galopin, I. Sagnes, J. Bloch, G. Malpuech, A. Amo
Format: Article
Language:English
Published: American Physical Society 2015-03-01
Series:Physical Review X
Online Access:http://doi.org/10.1103/PhysRevX.5.011034
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spelling doaj-47adc14ffe3c45bd934179a43de4f0662020-11-24T21:57:50ZengAmerican Physical SocietyPhysical Review X2160-33082015-03-015101103410.1103/PhysRevX.5.011034Spin-Orbit Coupling for Photons and Polaritons in MicrostructuresV. G. SalaD. D. SolnyshkovI. CarusottoT. JacqminA. LemaîtreH. TerçasA. NalitovM. AbbarchiE. GalopinI. SagnesJ. BlochG. MalpuechA. AmoWe use coupled micropillars etched out of a semiconductor microcavity to engineer a spin-orbit Hamiltonian for photons and polaritons in a microstructure. The coupling between the spin and orbital momentum arises from the polarization-dependent confinement and tunneling of photons between adjacent micropillars arranged in the form of a hexagonal photonic molecule. It results in polariton eigenstates with distinct polarization patterns, which are revealed in photoluminescence experiments in the regime of polariton condensation. Thanks to the strong polariton nonlinearities, our system provides a photonic workbench for the quantum simulation of the interplay between interactions and spin-orbit effects, particularly when extended to two-dimensional lattices.http://doi.org/10.1103/PhysRevX.5.011034
collection DOAJ
language English
format Article
sources DOAJ
author V. G. Sala
D. D. Solnyshkov
I. Carusotto
T. Jacqmin
A. Lemaître
H. Terças
A. Nalitov
M. Abbarchi
E. Galopin
I. Sagnes
J. Bloch
G. Malpuech
A. Amo
spellingShingle V. G. Sala
D. D. Solnyshkov
I. Carusotto
T. Jacqmin
A. Lemaître
H. Terças
A. Nalitov
M. Abbarchi
E. Galopin
I. Sagnes
J. Bloch
G. Malpuech
A. Amo
Spin-Orbit Coupling for Photons and Polaritons in Microstructures
Physical Review X
author_facet V. G. Sala
D. D. Solnyshkov
I. Carusotto
T. Jacqmin
A. Lemaître
H. Terças
A. Nalitov
M. Abbarchi
E. Galopin
I. Sagnes
J. Bloch
G. Malpuech
A. Amo
author_sort V. G. Sala
title Spin-Orbit Coupling for Photons and Polaritons in Microstructures
title_short Spin-Orbit Coupling for Photons and Polaritons in Microstructures
title_full Spin-Orbit Coupling for Photons and Polaritons in Microstructures
title_fullStr Spin-Orbit Coupling for Photons and Polaritons in Microstructures
title_full_unstemmed Spin-Orbit Coupling for Photons and Polaritons in Microstructures
title_sort spin-orbit coupling for photons and polaritons in microstructures
publisher American Physical Society
series Physical Review X
issn 2160-3308
publishDate 2015-03-01
description We use coupled micropillars etched out of a semiconductor microcavity to engineer a spin-orbit Hamiltonian for photons and polaritons in a microstructure. The coupling between the spin and orbital momentum arises from the polarization-dependent confinement and tunneling of photons between adjacent micropillars arranged in the form of a hexagonal photonic molecule. It results in polariton eigenstates with distinct polarization patterns, which are revealed in photoluminescence experiments in the regime of polariton condensation. Thanks to the strong polariton nonlinearities, our system provides a photonic workbench for the quantum simulation of the interplay between interactions and spin-orbit effects, particularly when extended to two-dimensional lattices.
url http://doi.org/10.1103/PhysRevX.5.011034
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