Spectral tuning of perovskite laser via microheaters
Spectral tuning of perovskite laser via microheaters
Perovskites have recently brought significant advances to active nanophotonics, offering a unique combination of gain and phase-change properties for tunable light-emitting devices. However, current wavelength-tunable devices often rely on tuning mechanisms or device architectures that lead to slow modulation or bulky setups. Here, we demonstrate a compact tunable microlaser with electrical microheaters integrated beneath a perovskite metasurface, enabling efficient heating and rapid phase transitions. Our device leverages the optical gain, crystallographic phase tuning of the perovskite, and a high-quality factor cavity design based on bound states in the continuum. With it, we demonstrate reversible laser wavelength switching between 763 and 783 nm within 13 ms at 2.3 V. This work unlocks the potential of perovskite metasurfaces for electrically tunable light sources and introduces a flexible platform which can be easily extended to the dynamic control of polarization or directionality for optical communication, sensing, and spectroscopy.
9695–9701
Meiler, Tim C.
68a1aff3-393a-416d-97a9-f5141d7dd03e
Wang, Yutao
cfbbc872-6c74-4b1f-bd49-9e85f048a891
Srivastava, Saurabh
a9c6dd4b-be1f-477f-a5ce-d0db311f0765
Adamo, Giorgio
73480dbd-5d3e-415a-b569-9606b3dbeecc
Paniagua-Domínguez, Ramón
eedc5d88-38a0-4589-a061-ac9d8e347c46
Kuznetsov, Arseniy I.
fdb04f65-7b9a-4665-ad81-217e653ce625
Soci, Cesare
38b2dc9e-77d4-4e3e-9308-40ee93d61e7a
18 June 2025
Meiler, Tim C.
68a1aff3-393a-416d-97a9-f5141d7dd03e
Wang, Yutao
cfbbc872-6c74-4b1f-bd49-9e85f048a891
Srivastava, Saurabh
a9c6dd4b-be1f-477f-a5ce-d0db311f0765
Adamo, Giorgio
73480dbd-5d3e-415a-b569-9606b3dbeecc
Paniagua-Domínguez, Ramón
eedc5d88-38a0-4589-a061-ac9d8e347c46
Kuznetsov, Arseniy I.
fdb04f65-7b9a-4665-ad81-217e653ce625
Soci, Cesare
38b2dc9e-77d4-4e3e-9308-40ee93d61e7a
Meiler, Tim C., Wang, Yutao, Srivastava, Saurabh, Adamo, Giorgio, Paniagua-Domínguez, Ramón, Kuznetsov, Arseniy I. and Soci, Cesare
(2025)
Spectral tuning of perovskite laser via microheaters.
Nano Letters, 25 (24), .
(doi:10.1021/acs.nanolett.5c01703).
Abstract
Perovskites have recently brought significant advances to active nanophotonics, offering a unique combination of gain and phase-change properties for tunable light-emitting devices. However, current wavelength-tunable devices often rely on tuning mechanisms or device architectures that lead to slow modulation or bulky setups. Here, we demonstrate a compact tunable microlaser with electrical microheaters integrated beneath a perovskite metasurface, enabling efficient heating and rapid phase transitions. Our device leverages the optical gain, crystallographic phase tuning of the perovskite, and a high-quality factor cavity design based on bound states in the continuum. With it, we demonstrate reversible laser wavelength switching between 763 and 783 nm within 13 ms at 2.3 V. This work unlocks the potential of perovskite metasurfaces for electrically tunable light sources and introduces a flexible platform which can be easily extended to the dynamic control of polarization or directionality for optical communication, sensing, and spectroscopy.
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Published date: 18 June 2025
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Local EPrints ID: 509596
URI: http://eprints.soton.ac.uk/id/eprint/509596
ISSN: 1530-6984
PURE UUID: b148186b-020f-42ec-b893-de8d65111b4a
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Date deposited: 26 Feb 2026 17:38
Last modified: 26 Feb 2026 17:38
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Contributors
Author:
Tim C. Meiler
Author:
Yutao Wang
Author:
Saurabh Srivastava
Author:
Giorgio Adamo
Author:
Ramón Paniagua-Domínguez
Author:
Arseniy I. Kuznetsov
Author:
Cesare Soci
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