Active Tuning of Hybrid Plasmonics in Graphene-Covered Metallic Nanotrench

Noor Uddin; Qing Yang; Guangqing Du; Feng Chen; Huijing Li; Xun Hou

doi:10.1134/S1063785020060115

Active Tuning of Hybrid Plasmonics in Graphene-Covered Metallic Nanotrench

Noor Uddin
, Qing Yang
, Guangqing Du
, Feng Chen
, Huijing Li
, Xun Hou

Faculty of Electronic and Information Engineering

Xi'an Jiaotong University
Balochistan University of Engineering & Technology, Khuzdar

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Abstract: Graphene has recently emerged as a possible platform for integrated optoelectronics and hybrid photonic devices because of its promising electronic and optical characteristics. Here, we propose the active tuning of hybrid plasmonics in intrinsic graphene-based gold rectangle nanotrench by modifying the graphene electron system. We found that the plasmonics response in graphene thicknesses can be unprecedentedly tuned by altering the thickness of thick graphene covering nanotrench geometry. It is explained as the active plasmonics hybridization leading to the tunability of the enhanced e-field localized within the graphene-covered metallic nanotrench. This study can be useful for optoelectronic devices based on hybrid graphene structures at IR wavelengths.

Original language	English
Pages (from-to)	526-531
Number of pages	6
Journal	Technical Physics Letters
Volume	46
Issue number	6
DOIs	https://doi.org/10.1134/S1063785020060115
State	Published - 1 Jun 2020

Keywords

Fermi levels
graphene plasmonics
graphene thickness
hybridization
tunabilities

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10.1134/S1063785020060115

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title = "Active Tuning of Hybrid Plasmonics in Graphene-Covered Metallic Nanotrench",

abstract = "Abstract: Graphene has recently emerged as a possible platform for integrated optoelectronics and hybrid photonic devices because of its promising electronic and optical characteristics. Here, we propose the active tuning of hybrid plasmonics in intrinsic graphene-based gold rectangle nanotrench by modifying the graphene electron system. We found that the plasmonics response in graphene thicknesses can be unprecedentedly tuned by altering the thickness of thick graphene covering nanotrench geometry. It is explained as the active plasmonics hybridization leading to the tunability of the enhanced e-field localized within the graphene-covered metallic nanotrench. This study can be useful for optoelectronic devices based on hybrid graphene structures at IR wavelengths.",

keywords = "Fermi levels, graphene plasmonics, graphene thickness, hybridization, tunabilities",

author = "Noor Uddin and Qing Yang and Guangqing Du and Feng Chen and Huijing Li and Xun Hou",

note = "Publisher Copyright: {\textcopyright} 2020, Pleiades Publishing, Ltd.",

year = "2020",

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doi = "10.1134/S1063785020060115",

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TY - JOUR

T1 - Active Tuning of Hybrid Plasmonics in Graphene-Covered Metallic Nanotrench

AU - Uddin, Noor

AU - Yang, Qing

AU - Du, Guangqing

AU - Chen, Feng

AU - Li, Huijing

AU - Hou, Xun

PY - 2020/6/1

Y1 - 2020/6/1

N2 - Abstract: Graphene has recently emerged as a possible platform for integrated optoelectronics and hybrid photonic devices because of its promising electronic and optical characteristics. Here, we propose the active tuning of hybrid plasmonics in intrinsic graphene-based gold rectangle nanotrench by modifying the graphene electron system. We found that the plasmonics response in graphene thicknesses can be unprecedentedly tuned by altering the thickness of thick graphene covering nanotrench geometry. It is explained as the active plasmonics hybridization leading to the tunability of the enhanced e-field localized within the graphene-covered metallic nanotrench. This study can be useful for optoelectronic devices based on hybrid graphene structures at IR wavelengths.

AB - Abstract: Graphene has recently emerged as a possible platform for integrated optoelectronics and hybrid photonic devices because of its promising electronic and optical characteristics. Here, we propose the active tuning of hybrid plasmonics in intrinsic graphene-based gold rectangle nanotrench by modifying the graphene electron system. We found that the plasmonics response in graphene thicknesses can be unprecedentedly tuned by altering the thickness of thick graphene covering nanotrench geometry. It is explained as the active plasmonics hybridization leading to the tunability of the enhanced e-field localized within the graphene-covered metallic nanotrench. This study can be useful for optoelectronic devices based on hybrid graphene structures at IR wavelengths.

KW - Fermi levels

KW - graphene plasmonics

KW - graphene thickness

KW - hybridization

KW - tunabilities

UR - https://www.scopus.com/pages/publications/85088163074

U2 - 10.1134/S1063785020060115

DO - 10.1134/S1063785020060115

M3 - 文章

AN - SCOPUS:85088163074

SN - 1063-7850

VL - 46

SP - 526

EP - 531

JO - Technical Physics Letters

JF - Technical Physics Letters

IS - 6

ER -

Active Tuning of Hybrid Plasmonics in Graphene-Covered Metallic Nanotrench

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Keywords

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