Cavity-control of interlayer excitons in van der Waals heterostructures

Monolayer transition metal dichalcogenides integrated in optical microcavities host exciton-polaritons as a hallmark of the strong light-matter coupling regime. Analogous concepts for hybrid light-matter systems employing spatially indirect excitons with a permanent electric dipole moment in heterob...

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Published inNature communications Vol. 10; no. 1; pp. 3697 - 6
Main Authors Förg, Michael, Colombier, Léo, Patel, Robin K., Lindlau, Jessica, Mohite, Aditya D., Yamaguchi, Hisato, Glazov, Mikhail M., Hunger, David, Högele, Alexander
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 16.08.2019
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Abstract Monolayer transition metal dichalcogenides integrated in optical microcavities host exciton-polaritons as a hallmark of the strong light-matter coupling regime. Analogous concepts for hybrid light-matter systems employing spatially indirect excitons with a permanent electric dipole moment in heterobilayer crystals promise realizations of exciton-polariton gases and condensates with inherent dipolar interactions. Here, we implement cavity-control of interlayer excitons in vertical MoSe 2 -WSe 2 heterostructures. Our experiments demonstrate the Purcell effect for heterobilayer emission in cavity-modified photonic environments, and quantify the light-matter coupling strength of interlayer excitons. The results will facilitate further developments of dipolar exciton-polariton gases and condensates in hybrid cavity – van der Waals heterostructure systems. Cavity-enhanced light-matter interaction in the weak-coupling regime is known to result in Purcell enhancement. Here the authors demonstrate Purcell enhancement in the photoluminescence of vertical MoSe 2 -WSe 2 heterostructures coupled to a micro-cavity and determine the light-matter coupling strength for interlayer excitons.
AbstractList Monolayer transition metal dichalcogenides integrated in optical microcavities host exciton-polaritons as a hallmark of the strong light-matter coupling regime. Analogous concepts for hybrid light-matter systems employing spatially indirect excitons with a permanent electric dipole moment in heterobilayer crystals promise realizations of exciton-polariton gases and condensates with inherent dipolar interactions. Here, we implement cavity-control of interlayer excitons in vertical MoSe 2 -WSe 2 heterostructures. Our experiments demonstrate the Purcell effect for heterobilayer emission in cavity-modified photonic environments, and quantify the light-matter coupling strength of interlayer excitons. The results will facilitate further developments of dipolar exciton-polariton gases and condensates in hybrid cavity – van der Waals heterostructure systems. Cavity-enhanced light-matter interaction in the weak-coupling regime is known to result in Purcell enhancement. Here the authors demonstrate Purcell enhancement in the photoluminescence of vertical MoSe 2 -WSe 2 heterostructures coupled to a micro-cavity and determine the light-matter coupling strength for interlayer excitons.
Abstract Monolayer transition metal dichalcogenides integrated in optical microcavities host exciton-polaritons as a hallmark of the strong light-matter coupling regime. Analogous concepts for hybrid light-matter systems employing spatially indirect excitons with a permanent electric dipole moment in heterobilayer crystals promise realizations of exciton-polariton gases and condensates with inherent dipolar interactions. Here, we implement cavity-control of interlayer excitons in vertical MoSe 2 -WSe 2 heterostructures. Our experiments demonstrate the Purcell effect for heterobilayer emission in cavity-modified photonic environments, and quantify the light-matter coupling strength of interlayer excitons. The results will facilitate further developments of dipolar exciton-polariton gases and condensates in hybrid cavity – van der Waals heterostructure systems.
Monolayer transition metal dichalcogenides integrated in optical microcavities host exciton-polaritons as a hallmark of the strong light-matter coupling regime. Analogous concepts for hybrid light-matter systems employing spatially indirect excitons with a permanent electric dipole moment in heterobilayer crystals promise realizations of exciton-polariton gases and condensates with inherent dipolar interactions. Here, we implement cavity-control of interlayer excitons in vertical MoSe -WSe heterostructures. Our experiments demonstrate the Purcell effect for heterobilayer emission in cavity-modified photonic environments, and quantify the light-matter coupling strength of interlayer excitons. The results will facilitate further developments of dipolar exciton-polariton gases and condensates in hybrid cavity - van der Waals heterostructure systems.
Cavity-enhanced light-matter interaction in the weak-coupling regime is known to result in Purcell enhancement. Here the authors demonstrate Purcell enhancement in the photoluminescence of vertical MoSe2-WSe2 heterostructures coupled to a micro-cavity and determine the light-matter coupling strength for interlayer excitons.
Monolayer transition metal dichalcogenides integrated in optical microcavities host exciton-polaritons as a hallmark of the strong light-matter coupling regime. Analogous concepts for hybrid light-matter systems employing spatially indirect excitons with a permanent electric dipole moment in heterobilayer crystals promise realizations of exciton-polariton gases and condensates with inherent dipolar interactions. Here, we implement cavity-control of interlayer excitons in vertical MoSe2-WSe2 heterostructures. Our experiments demonstrate the Purcell effect for heterobilayer emission in cavity-modified photonic environments, and quantify the light-matter coupling strength of interlayer excitons. The results will facilitate further developments of dipolar exciton-polariton gases and condensates in hybrid cavity – van der Waals heterostructure systems.
ArticleNumber 3697
Author Lindlau, Jessica
Mohite, Aditya D.
Högele, Alexander
Patel, Robin K.
Yamaguchi, Hisato
Hunger, David
Förg, Michael
Colombier, Léo
Glazov, Mikhail M.
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  email: alexander.hoegele@lmu.de
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/31420540$$D View this record in MEDLINE/PubMed
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SSID ssj0000391844
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Snippet Monolayer transition metal dichalcogenides integrated in optical microcavities host exciton-polaritons as a hallmark of the strong light-matter coupling...
Abstract Monolayer transition metal dichalcogenides integrated in optical microcavities host exciton-polaritons as a hallmark of the strong light-matter...
Cavity-enhanced light-matter interaction in the weak-coupling regime is known to result in Purcell enhancement. Here the authors demonstrate Purcell...
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SubjectTerms 639/766/119/1000/1018
639/925/357/1018
Chemical vapor deposition
Condensates
Coupling
Crystals
Dipole moments
Electric dipoles
Excitons
Gases
Heterostructures
Humanities and Social Sciences
Hybrid systems
Interlayers
Laboratories
Light
Microcavities
multidisciplinary
Photonics
Polaritons
Science
Science (multidisciplinary)
Spectrum analysis
Transition metal compounds
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Title Cavity-control of interlayer excitons in van der Waals heterostructures
URI https://link.springer.com/article/10.1038/s41467-019-11620-z
https://www.ncbi.nlm.nih.gov/pubmed/31420540
https://www.proquest.com/docview/2274352617
https://search.proquest.com/docview/2275274903
https://pubmed.ncbi.nlm.nih.gov/PMC6697722
https://doaj.org/article/a5af26a5fb3e4c46970d0a6a0cf03d05
Volume 10
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