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Perovskite quantum dot one-dimensional topological laser

Perovskite quantum dot one-dimensional topological laser
Perovskite quantum dot one-dimensional topological laser
Various topological laser concepts have recently enabled the demonstration of robust light-emitting devices that are immune to structural deformations and tolerant to fabrication imperfections. Current realizations of photonic cavities with topological boundaries are often limited by outcoupling issues or poor directionality and require complex design and fabrication that hinder operation at small wavelengths. Here we propose a topological cavity design based on interface states between two one-dimensional photonic crystals with distinct Zak phases. Using a few monolayers of solution-processed all-inorganic cesium lead halide perovskite quantum dots as the ultrathin gain medium, we demonstrate a lithography-free, vertical-emitting, low-threshold, and single-mode laser emitting in the green. We show that the topological laser, akin to vertical-cavity surface-emitting lasers (VCSELs), is robust against local perturbations of the multilayer structure. We argue that the design simplicity and reduction of the gain medium thickness enabled by the topological cavity make this architecture suitable for low-cost and efficient quantum dot vertical emitting lasers operating across the visible spectral region.
2041-1723
Tian, Jingyi
35f2c116-9f84-4dc8-8edd-651656b1160b
Tan, Qi Ying
41b167c1-24bb-4150-947d-e6f1a8a92f6e
Wang, Yutao
cfbbc872-6c74-4b1f-bd49-9e85f048a891
Yang, Yihao
489e1396-3c94-420d-9002-4807537999da
Yuan, Guanghui
31e40202-9b7d-4ca1-be09-3c2736e623d7
Adamo, Giorgio
73480dbd-5d3e-415a-b569-9606b3dbeecc
Soci, Cesare
38b2dc9e-77d4-4e3e-9308-40ee93d61e7a
Tian, Jingyi
35f2c116-9f84-4dc8-8edd-651656b1160b
Tan, Qi Ying
41b167c1-24bb-4150-947d-e6f1a8a92f6e
Wang, Yutao
cfbbc872-6c74-4b1f-bd49-9e85f048a891
Yang, Yihao
489e1396-3c94-420d-9002-4807537999da
Yuan, Guanghui
31e40202-9b7d-4ca1-be09-3c2736e623d7
Adamo, Giorgio
73480dbd-5d3e-415a-b569-9606b3dbeecc
Soci, Cesare
38b2dc9e-77d4-4e3e-9308-40ee93d61e7a

Tian, Jingyi, Tan, Qi Ying, Wang, Yutao, Yang, Yihao, Yuan, Guanghui, Adamo, Giorgio and Soci, Cesare (2023) Perovskite quantum dot one-dimensional topological laser. Nature Communications, 14, [1433]. (doi:10.1038/s41467-023-36963-6).

Record type: Article

Abstract

Various topological laser concepts have recently enabled the demonstration of robust light-emitting devices that are immune to structural deformations and tolerant to fabrication imperfections. Current realizations of photonic cavities with topological boundaries are often limited by outcoupling issues or poor directionality and require complex design and fabrication that hinder operation at small wavelengths. Here we propose a topological cavity design based on interface states between two one-dimensional photonic crystals with distinct Zak phases. Using a few monolayers of solution-processed all-inorganic cesium lead halide perovskite quantum dots as the ultrathin gain medium, we demonstrate a lithography-free, vertical-emitting, low-threshold, and single-mode laser emitting in the green. We show that the topological laser, akin to vertical-cavity surface-emitting lasers (VCSELs), is robust against local perturbations of the multilayer structure. We argue that the design simplicity and reduction of the gain medium thickness enabled by the topological cavity make this architecture suitable for low-cost and efficient quantum dot vertical emitting lasers operating across the visible spectral region.

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Published date: 15 March 2023
Learn more about the Optoelectronics Research Centre

Identifiers

Local EPrints ID: 509591
URI: http://eprints.soton.ac.uk/id/eprint/509591
DOI: doi:10.1038/s41467-023-36963-6
ISSN: 2041-1723
PURE UUID: 5095732e-7735-4787-a33e-e3b0cc7da2a5

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Date deposited: 26 Feb 2026 17:37
Last modified: 26 Feb 2026 17:37

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Contributors

Author: Jingyi Tian
Author: Qi Ying Tan
Author: Yutao Wang
Author: Yihao Yang
Author: Guanghui Yuan
Author: Giorgio Adamo
Author: Cesare Soci

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