A thresholdless tunable Raman nanolaser using a ZnO–graphene superlattice
A thresholdless tunable Raman nanolaser using a ZnO–graphene superlattice
A ZnO–graphene superlattice is synthesised via a spatially confined reaction. When illuminated by a pump laser, the Stokes' photons of the superlattice are greatly amplified by the surface plasmon at the interface of the graphene and the ZnO. Benefitting from the special geometry, the ZnO–graphene superlattice allows the generation of a tunable nanolaser that operates from the visible to near-infrared range at room temperature.
Zhu, Haiou
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Xu, Xintong
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Tian, Xiaoqing
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Tang, Jiaoning
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Liang, Huawei
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Chen, Lingling
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Xie, Yi
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Zhang, Xiaodong
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Xiao, Chong
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Li, Ran
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Gu, Qiao
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Hua, Ping
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Ruan, Shuangchen
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11 January 2017
Zhu, Haiou
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Xu, Xintong
1b56e21e-64e9-4a83-aca4-65d5d50a5191
Tian, Xiaoqing
0aa8188b-30cb-49a1-8e54-6c877856cdee
Tang, Jiaoning
20e8d9d3-01b2-4858-b838-5cf4f52558a6
Liang, Huawei
075d56bd-935a-48a6-90ab-22c20997d064
Chen, Lingling
95f1d8e8-a231-4179-bbf3-15cce80eb0eb
Xie, Yi
f246a941-c459-4aa2-bc86-6f841c3d7c7d
Zhang, Xiaodong
14e4df91-ea53-4969-839a-08138e3c1641
Xiao, Chong
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Li, Ran
3cdff050-f515-4bf6-8e53-76f78fbdc7ad
Gu, Qiao
59eccb8f-980e-446b-bc1c-089a4eafd561
Hua, Ping
92fa76e2-970b-45f5-a459-d9f95e735303
Ruan, Shuangchen
5880cbc3-f028-4f39-9836-00fc3c089997
Zhu, Haiou, Xu, Xintong, Tian, Xiaoqing, Tang, Jiaoning, Liang, Huawei, Chen, Lingling, Xie, Yi, Zhang, Xiaodong, Xiao, Chong, Li, Ran, Gu, Qiao, Hua, Ping and Ruan, Shuangchen
(2017)
A thresholdless tunable Raman nanolaser using a ZnO–graphene superlattice.
Advanced Materials, 29 (2), [1604351].
(doi:10.1002/adma.201604351).
Abstract
A ZnO–graphene superlattice is synthesised via a spatially confined reaction. When illuminated by a pump laser, the Stokes' photons of the superlattice are greatly amplified by the surface plasmon at the interface of the graphene and the ZnO. Benefitting from the special geometry, the ZnO–graphene superlattice allows the generation of a tunable nanolaser that operates from the visible to near-infrared range at room temperature.
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More information
Accepted/In Press date: 12 October 2016
e-pub ahead of print date: 9 November 2016
Published date: 11 January 2017
Organisations:
Optoelectronics Research Centre
Identifiers
Local EPrints ID: 405754
URI: http://eprints.soton.ac.uk/id/eprint/405754
ISSN: 1521-4095
PURE UUID: de13b092-bed5-4381-9b58-ef1bb3e56d4a
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Date deposited: 18 Feb 2017 00:21
Last modified: 16 Mar 2024 05:01
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Contributors
Author:
Haiou Zhu
Author:
Xintong Xu
Author:
Xiaoqing Tian
Author:
Jiaoning Tang
Author:
Huawei Liang
Author:
Lingling Chen
Author:
Yi Xie
Author:
Xiaodong Zhang
Author:
Chong Xiao
Author:
Ran Li
Author:
Qiao Gu
Author:
Ping Hua
Author:
Shuangchen Ruan
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