Gain enhancement of perovskite nanosheets by a patterned waveguide: excitation and temperature dependence of gain saturation

Inhong Kim; Ga Eul Choi; Ming Mei; Min Woo Kim; Minju Kim; Young Woo Kwon; Tae-In Jeong; Seungchul Kim; Suck Won Hong; Kwangseuk Kyhm; Robert A. Taylor

doi:10.1038/s41377-023-01313-0

Light: Science & Applications (Nov 2023)

Gain enhancement of perovskite nanosheets by a patterned waveguide: excitation and temperature dependence of gain saturation

Inhong Kim,
Ga Eul Choi,
Ming Mei,
Min Woo Kim,
Minju Kim,
Young Woo Kwon,
Tae-In Jeong,
Seungchul Kim,
Suck Won Hong,
Kwangseuk Kyhm,
Robert A. Taylor

Affiliations

Inhong Kim: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Ga Eul Choi: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Ming Mei: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Min Woo Kim: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Minju Kim: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Young Woo Kwon: Department of Nano-Fusion Technology, Pusan National University
Tae-In Jeong: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Seungchul Kim: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Suck Won Hong: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Kwangseuk Kyhm: Department of Opto & Cogno Mechatronics Engineering, RCDAMP, Pusan National University
Robert A. Taylor: Clarendon Laboratory, Department of Physics, University of Oxford

DOI: https://doi.org/10.1038/s41377-023-01313-0
Journal volume & issue: Vol. 12, no. 1
pp. 1 – 12

Abstract

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Abstract Optical gain enhancement of two-dimensional CsPbBr3 nanosheets was studied when the amplified spontaneous emission is guided by a patterned structure of polyurethane-acrylate. Given the uncertainties and pitfalls in retrieving a gain coefficient from the variable stripe length method, a gain contour $$g(\hslash \omega ,x)$$ g ( ℏ ω , x ) was obtained in the plane of spectrum energy (ℏω) and stripe length (x), whereby an average gain was obtained, and gain saturation was analysed. Excitation and temperature dependence of the gain contour show that the waveguide enhances both gain and thermal stability due to the increased optical confinement and heat dissipation, and the gain origins were attributed to the two-dimensional excitons and the localized states.

Published in Light: Science & Applications

ISSN: 2047-7538 (Online)
Publisher: Nature Publishing Group
Country of publisher: United Kingdom
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics; Science: Physics: Optics. Light
Website: https://www.nature.com/lsa/

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