Issue 19, 2019
From the journal:

Nanoscale

Valley polarization of exciton–polaritons in monolayer WSe2 in a tunable microcavity

Mateusz Król, ORCID logo *a   Katarzyna Lekenta, ORCID logo a   Rafał Mirek, ORCID logo a   Karolina Łempicka,a   Daniel Stephan,a   Karol Nogajewski, ORCID logo ab   Maciej R. Molas, ORCID logo ab   Adam Babiński, ORCID logo a   Marek Potemski, ORCID logo ab   Jacek Szczytko ORCID logo a  and  Barbara Piętka ORCID logo *a  

* Corresponding authors

a Institute of Experimental Physics, Faculty of Physics, University of Warsaw, ul. Pasteura 5, PL-02-093 Warsaw, Poland
E-mail: Mateusz.Krol@fuw.edu.pl, Barbara.Pietka@fuw.edu.pl

b Laboratoire National des Champs Magnétiques Intenses, CNRS-UGA-UPS-INSA-EMFL, Grenoble, France

Abstract

Monolayer transition metal dichalcogenides, known for exhibiting strong excitonic resonances, constitute a very interesting and versatile platform for the investigation of light–matter interactions. In this work, we report on a strong coupling regime between excitons in monolayer WSe2 and photons confined in an open, voltage-tunable dielectric microcavity. The tunability of our system allows us to extend the exciton–polariton state over a wide energy range and, in particular, to bring the excitonic component of the lower polariton mode into resonance with other excitonic transitions in monolayer WSe2. We can retain up to 40% of initial circular polarization of the laser or loose it completely if polariton modes are brought into resonances with low energy excitonic modes.

Graphical abstract: Valley polarization of exciton–polaritons in monolayer WSe2 in a tunable microcavity

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Article information

DOI
https://doi.org/10.1039/C9NR02038A
Article type
Paper
Submitted
07 Mar 2019
Accepted
17 Apr 2019
First published
17 Apr 2019

Nanoscale, 2019,11, 9574-9579

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Valley polarization of exciton–polaritons in monolayer WSe2 in a tunable microcavity

M. Król, K. Lekenta, R. Mirek, K. Łempicka, D. Stephan, K. Nogajewski, M. R. Molas, A. Babiński, M. Potemski, J. Szczytko and B. Piętka, Nanoscale, 2019, 11, 9574 DOI: 10.1039/C9NR02038A

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