Perfect light absorption in graphene by two unpatterned dielectric layers and potential applications
Perfect light absorption in graphene by two unpatterned dielectric layers and potential applications
In the spectral range from ultraviolet to near infrared, graphene lacks the capability to support plasmon polaritons, and has low optical absorptivity for applications due to its extremely small thickness. Many photonic structures based on sophisticated nanofabrication or metal plasmonics have been adopted to conquer this limitation, but they suffer from high expenses or metal parasitic losses. Here, a single-channel coherent perfect absorber simply based on two unpatterned dielectric layers is proposed to reach ∼100% light absorption in monolayer and few-layer graphene. The schemes for narrowband and broadband perfect absorption in graphene are systematically demonstrated, and their potential applications on fibre-integrated narrowband perfect absorbers, high-performance optical sensors, electric-optic modulators and broadband perfect absorbers are also investigated. Our research provides a simple and cost-effective method to completely trap the light from ultraviolet to near infrared in a sub-nanometre scale for a lot of high-performance photonic and optoelectronic devices based on graphene and potentially other 2D materials.
430-437
Zhu, Jinfeng
2196d879-479e-459d-9f27-7cafdafb2018
Zhu, Jinfeng
2196d879-479e-459d-9f27-7cafdafb2018
Li, Chawei
0fa320e9-21a8-4532-a2d4-4910d1c506f2
Ou, Jun Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Liu, Qing Huo
9c97b6b5-5d24-4685-a15e-0b6d32f4a6eb
1 February 2019
Zhu, Jinfeng
2196d879-479e-459d-9f27-7cafdafb2018
Zhu, Jinfeng
2196d879-479e-459d-9f27-7cafdafb2018
Li, Chawei
0fa320e9-21a8-4532-a2d4-4910d1c506f2
Ou, Jun Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Liu, Qing Huo
9c97b6b5-5d24-4685-a15e-0b6d32f4a6eb
Zhu, Jinfeng, Zhu, Jinfeng, Li, Chawei, Ou, Jun Yu and Liu, Qing Huo
(2019)
Perfect light absorption in graphene by two unpatterned dielectric layers and potential applications.
Carbon, 142, .
(doi:10.1016/j.carbon.2018.10.073).
Abstract
In the spectral range from ultraviolet to near infrared, graphene lacks the capability to support plasmon polaritons, and has low optical absorptivity for applications due to its extremely small thickness. Many photonic structures based on sophisticated nanofabrication or metal plasmonics have been adopted to conquer this limitation, but they suffer from high expenses or metal parasitic losses. Here, a single-channel coherent perfect absorber simply based on two unpatterned dielectric layers is proposed to reach ∼100% light absorption in monolayer and few-layer graphene. The schemes for narrowband and broadband perfect absorption in graphene are systematically demonstrated, and their potential applications on fibre-integrated narrowband perfect absorbers, high-performance optical sensors, electric-optic modulators and broadband perfect absorbers are also investigated. Our research provides a simple and cost-effective method to completely trap the light from ultraviolet to near infrared in a sub-nanometre scale for a lot of high-performance photonic and optoelectronic devices based on graphene and potentially other 2D materials.
Text
manuscript_Carbon_20180606
- Accepted Manuscript
More information
Accepted/In Press date: 21 October 2018
e-pub ahead of print date: 22 October 2018
Published date: 1 February 2019
Identifiers
Local EPrints ID: 427874
URI: http://eprints.soton.ac.uk/id/eprint/427874
ISSN: 0008-6223
PURE UUID: d89fa1fe-a4c1-4a22-be08-b8a346a5a003
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Date deposited: 30 Jan 2019 17:31
Last modified: 16 Mar 2024 07:16
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Contributors
Author:
Jinfeng Zhu
Author:
Jinfeng Zhu
Author:
Chawei Li
Author:
Jun Yu Ou
Author:
Qing Huo Liu
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