Predesigned perovskite crystal waveguides for room-temperature exciton–polariton condensation and edge lasing

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dc.contributor.authorKędziora, Mateuszen
dc.contributor.authorOpala, Andrzejen
dc.contributor.authorMastria, Rosannaen
dc.contributor.authorDe Marco, Luisaen
dc.contributor.authorKról, Mateuszen
dc.contributor.authorŁempicka-Mirek, Karolinaen
dc.contributor.authorTyszka, Krzysztofen
dc.contributor.authorEkielski, Mareken
dc.contributor.authorGuziewicz, Mareken
dc.contributor.authorBogdanowicz, Karolinaen
dc.contributor.authorSzerling, Annaen
dc.contributor.authorSigurðsson, Helgien
dc.contributor.authorCzyszanowski, Tomaszen
dc.contributor.authorSzczytko, Jaceken
dc.contributor.authorMatuszewski, Michałen
dc.contributor.authorSanvitto, Danieleen
dc.contributor.authorPiętka, Barbaraen
dc.date.accessioned2025-05-23T05:24:53Z
dc.date.available2025-05-23T05:24:53Z
dc.date.issued2024en
dc.description.abstractPerovskite crystals—with their exceptional nonlinear optical properties, lasing and waveguiding capabilities—offer a promising platform for integrated photonic circuitry within the strong-coupling regime at room temperature. Here we demonstrate a versatile template-assisted method to efficiently fabricate large-scale waveguiding perovskite crystals of arbitrarily predefined geometry such as microwires, couplers and splitters. We non-resonantly stimulate a condensate of waveguided exciton–polaritons resulting in bright polariton lasing from the transverse interfaces and corners of our perovskite microstructures. Large blueshifts with excitation power and high mutual coherence between the different edge and corner lasing signals are detected in the far-field photoluminescence, implying that a spatially extended condensates of coherent polaritons has formed. The condensate polaritons are found to propagate over long distances in the wires from the excitation spot and can couple to neighbouring wires through large air gaps, making our platform promising for integrated polaritonic circuitry and on-chip optical devices with strong nonlinearities.en
dc.description.sponsorshipWe thank A. Coriolano and I. Viola for support in the synthesis development. We also thank R. Grzela and R. Bo\u017Cek for help with confocal fluorescence and atomic force microscopy images. This work was supported by the National Science Center, Poland, under projects 2022/47/B/ST3/02411 (B.P., M. K\u0119dziora and K.T.), 2021/43/B/ST3/00752 (M.M.) and 2019/35/N/ST3/01379 (A.O.), and financed by the European Union EIC Pathfinder Open project \u2018Polariton Neuromorphic Accelerator\u2019 (PolArt, ID: 101130304) (B.P., D.S., J.S. and M.M.). H.S. acknowledges project no. 2022/45/P/ST3/00467 co-funded by the Polish National Science Centre and the European Union Framework Programme for Research and Innovation Horizon 2020 under the Marie Sk\u0142odowska-Curie grant agreement no. 945339. A.O. acknowledges support from the Foundation for Polish Science (FNP). This work was supported by the joint bilateral project \u2018Novel photonic platform for neuromorphic computing\u2019 Italy MAECI\u2013Poland NAWA PPN/BIT/2021/1/ 00124/U/00001 (K.\u0141.-M., B.P., R.M., L.D.M. and D.S.). M.E., A.S. and K.B. acknowledge support from the statutory funds of the \u0141ukasiewicz Research Network\u2013Institute of Microelectronics and Photonics. This work had been completed while K.B. was a Doctoral Candidate in the Interdisciplinary Doctoral School at the \u0141\u00F3d\u017A University of Technology, Poland.en
dc.description.statusPeer-revieweden
dc.format.extent8en
dc.identifier.issn1476-1122en
dc.identifier.otherPubMed:39160353en
dc.identifier.otherORCID:/0000-0002-4767-5705/work/184100142en
dc.identifier.scopus85201547217en
dc.identifier.urihttp://www.scopus.com/inward/record.url?scp=85201547217&partnerID=8YFLogxKen
dc.identifier.urihttps://hdl.handle.net/1885/733751561
dc.language.isoenen
dc.rightsPublisher Copyright: © The Author(s), under exclusive licence to Springer Nature Limited 2024.en
dc.sourceNature Materialsen
dc.titlePredesigned perovskite crystal waveguides for room-temperature exciton–polariton condensation and edge lasingen
dc.typeJournal articleen
dspace.entity.typePublicationen
local.bibliographicCitation.lastpage1522en
local.bibliographicCitation.startpage1515en
local.contributor.affiliationKędziora, Mateusz; University of Warsawen
local.contributor.affiliationOpala, Andrzej; University of Warsawen
local.contributor.affiliationMastria, Rosanna; CNR-Nanotec, Lecceen
local.contributor.affiliationDe Marco, Luisa; CNR-Nanotec, Lecceen
local.contributor.affiliationKról, Mateusz; Department of Quantum Science & Technology, Research School of Physics, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationŁempicka-Mirek, Karolina; University of Warsawen
local.contributor.affiliationTyszka, Krzysztof; University of Warsawen
local.contributor.affiliationEkielski, Marek; Institute of Microelectronics and Photonicsen
local.contributor.affiliationGuziewicz, Marek; Institute of Microelectronics and Photonicsen
local.contributor.affiliationBogdanowicz, Karolina; Institute of Microelectronics and Photonicsen
local.contributor.affiliationSzerling, Anna; Institute of Microelectronics and Photonicsen
local.contributor.affiliationSigurðsson, Helgi; University of Warsawen
local.contributor.affiliationCzyszanowski, Tomasz; Lodz University of Technologyen
local.contributor.affiliationSzczytko, Jacek; University of Warsawen
local.contributor.affiliationMatuszewski, Michał; Institute of Physics of the Polish Academy of Sciencesen
local.contributor.affiliationSanvitto, Daniele; CNR-Nanotec, Lecceen
local.contributor.affiliationPiętka, Barbara; University of Warsawen
local.identifier.citationvolume23en
local.identifier.doi10.1038/s41563-024-01980-3en
local.identifier.pure87e161e5-2519-4178-b596-448680fa3e42en
local.identifier.urlhttps://www.scopus.com/pages/publications/85201547217en
local.type.statusPublisheden

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