Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface
Excitons in lead bromide perovskites exhibit high binding energy and high oscillator strength, allowing for a strong light-matter coupling regime in the perovskite-based cavities localizing photons at the nanoscale. This opens up the way for the realization of exciton-polariton Bose-Einstein cond...
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sg-ntu-dr.10356-1706492023-09-25T04:10:18Z Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface Masharin, M. A. Samusev, A. K. Bogdanov, A. A. Iorsh, I. V. Demir, Hilmi Volkan Makarov, S. V. School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences School of Materials Science and Engineering LUMINOUS! Centre of Excellence for Semiconductor Lighting & Displays Science::Physics Exceptional Points Perovskite Metasurfaces Excitons in lead bromide perovskites exhibit high binding energy and high oscillator strength, allowing for a strong light-matter coupling regime in the perovskite-based cavities localizing photons at the nanoscale. This opens up the way for the realization of exciton-polariton Bose-Einstein condensation and polariton lasing at room temperature -- the inversion-free low-threshold stimulated emission. However, polariton lasing in perovskite planar photon cavities without Bragg mirrors has not yet been observed and proved experimentally. In this work, we employ perovskite metasurface, fabricated with nanoimprint lithography, supporting so-called exceptional points to demonstrate the room-temperature polariton lasing. The exceptional points in exciton-polariton dispersion of the metasurface appear upon optically pumping in the nonlinear regime in the spectral vicinity of a symmetry-protected bound state in the continuum providing high mode confinement with the enhanced local density of states beneficial for polariton condensation. The observed lasing emission possesses high directivity with a divergence angle of around 1degrees over one axis. The employed nanoimprinting approach for solution-processable large-scale polariton lasers is compatible with various planar photonic platforms suitable for on-chip integration. A.K.S. acknowledges the Deutsche Forschungsgemeinschaft (grant SFB TRR142/project A6), the Mercur Foundation (grant Pe-2019-0022), and TU Dortmund core funds. This work was also supported by the Ministry of Science and Higher Education of the Russian Federation (project 075-15-2021-589), the Russian Science Foundation (project 21-12-00383), and Priority 2030 Federal Academic Leadership Program. H.V.D. acknowledges the support from TUBA. 2023-09-25T04:10:18Z 2023-09-25T04:10:18Z 2022 Journal Article Masharin, M. A., Samusev, A. K., Bogdanov, A. A., Iorsh, I. V., Demir, H. V. & Makarov, S. V. (2022). Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface. Advanced Functional Materials, 33(22), 2215007-. https://dx.doi.org/10.1002/adfm.202215007 1616-301X https://hdl.handle.net/10356/170649 10.1002/adfm.202215007 2-s2.0-85149286492 22 33 2215007 en Advanced Functional Materials © 2023 Wiley-VCH GmbH. All rights reserved. |
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Science::Physics Exceptional Points Perovskite Metasurfaces Masharin, M. A. Samusev, A. K. Bogdanov, A. A. Iorsh, I. V. Demir, Hilmi Volkan Makarov, S. V. Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface |
| description |
Excitons in lead bromide perovskites exhibit high binding energy and high
oscillator strength, allowing for a strong light-matter coupling regime in the
perovskite-based cavities localizing photons at the nanoscale. This opens up
the way for the realization of exciton-polariton Bose-Einstein condensation and
polariton lasing at room temperature -- the inversion-free low-threshold
stimulated emission. However, polariton lasing in perovskite planar photon
cavities without Bragg mirrors has not yet been observed and proved
experimentally. In this work, we employ perovskite metasurface, fabricated with
nanoimprint lithography, supporting so-called exceptional points to demonstrate
the room-temperature polariton lasing. The exceptional points in
exciton-polariton dispersion of the metasurface appear upon optically pumping
in the nonlinear regime in the spectral vicinity of a symmetry-protected bound
state in the continuum providing high mode confinement with the enhanced local
density of states beneficial for polariton condensation. The observed lasing
emission possesses high directivity with a divergence angle of around 1degrees
over one axis. The employed nanoimprinting approach for solution-processable
large-scale polariton lasers is compatible with various planar photonic
platforms suitable for on-chip integration. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Masharin, M. A. Samusev, A. K. Bogdanov, A. A. Iorsh, I. V. Demir, Hilmi Volkan Makarov, S. V. |
| format |
Article |
| author |
Masharin, M. A. Samusev, A. K. Bogdanov, A. A. Iorsh, I. V. Demir, Hilmi Volkan Makarov, S. V. |
| author_sort |
Masharin, M. A. |
| title |
Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface |
| title_short |
Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface |
| title_full |
Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface |
| title_fullStr |
Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface |
| title_full_unstemmed |
Room-temperature exceptional-point-driven polariton lasing from perovskite metasurface |
| title_sort |
room-temperature exceptional-point-driven polariton lasing from perovskite metasurface |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170649 |
| _version_ |
1779156626525126656 |