Tunable absorption as multi-wavelength at infrared on graphene/hbn/al grating structure

Qinghui Pan; Guohua Zhang; Ruming Pan; Jiahui Zhang; Yong Shuai; Heping Tan

doi:10.1364/OE.26.018230

Tunable absorption as multi-wavelength at infrared on graphene/hbn/al grating structure

Qinghui Pan
, Guohua Zhang
, Ruming Pan
, Jiahui Zhang
, Yong Shuai^*
, Heping Tan

^*Corresponding author for this work

School of Energy Science and Engineering, Harbin Institute of Technology

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

16 Scopus citations

Abstract

This work designs a graphene/hBN/Al grating anisotropic hybrid structure. Formed by strong coupling between plasmonic Magnetic polaritons (MPs) in the metal grating and phonon-plasmon polaritons, hybrid hyperbolic phonon-plasmon polaritons in the graphene/hBN film have been excited, resulting in three sharp, high absorption peaks, which are 0.75, 0.97 and 0.97, formed at 5.92 μm, 6.32 μm, and 7.64 μm respectively. The absorption mechanisms have been theoretically analyzed. Local electromagnetic field and power dissipation density are depicted for further elucidating the underlying mechanisms. The different structural parameters and chemical potential, which affect the absorption peak were discussed. These numerical results can provide potential application in the field of optical detection and optoelectronic.

Original language	English
Pages (from-to)	18230-18237
Number of pages	8
Journal	Optics Express
Volume	26
Issue number	14
DOIs	https://doi.org/10.1364/OE.26.018230
State	Published - 9 Jul 2018
Externally published	Yes

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title = "Tunable absorption as multi-wavelength at infrared on graphene/hbn/al grating structure",

abstract = "This work designs a graphene/hBN/Al grating anisotropic hybrid structure. Formed by strong coupling between plasmonic Magnetic polaritons (MPs) in the metal grating and phonon-plasmon polaritons, hybrid hyperbolic phonon-plasmon polaritons in the graphene/hBN film have been excited, resulting in three sharp, high absorption peaks, which are 0.75, 0.97 and 0.97, formed at 5.92 μm, 6.32 μm, and 7.64 μm respectively. The absorption mechanisms have been theoretically analyzed. Local electromagnetic field and power dissipation density are depicted for further elucidating the underlying mechanisms. The different structural parameters and chemical potential, which affect the absorption peak were discussed. These numerical results can provide potential application in the field of optical detection and optoelectronic.",

author = "Qinghui Pan and Guohua Zhang and Ruming Pan and Jiahui Zhang and Yong Shuai and Heping Tan",

note = "Publisher Copyright: {\textcopyright} 2018 Optical Society of America.",

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doi = "10.1364/OE.26.018230",

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T1 - Tunable absorption as multi-wavelength at infrared on graphene/hbn/al grating structure

AU - Pan, Qinghui

AU - Zhang, Guohua

AU - Pan, Ruming

AU - Zhang, Jiahui

AU - Shuai, Yong

AU - Tan, Heping

PY - 2018/7/9

Y1 - 2018/7/9

N2 - This work designs a graphene/hBN/Al grating anisotropic hybrid structure. Formed by strong coupling between plasmonic Magnetic polaritons (MPs) in the metal grating and phonon-plasmon polaritons, hybrid hyperbolic phonon-plasmon polaritons in the graphene/hBN film have been excited, resulting in three sharp, high absorption peaks, which are 0.75, 0.97 and 0.97, formed at 5.92 μm, 6.32 μm, and 7.64 μm respectively. The absorption mechanisms have been theoretically analyzed. Local electromagnetic field and power dissipation density are depicted for further elucidating the underlying mechanisms. The different structural parameters and chemical potential, which affect the absorption peak were discussed. These numerical results can provide potential application in the field of optical detection and optoelectronic.

AB - This work designs a graphene/hBN/Al grating anisotropic hybrid structure. Formed by strong coupling between plasmonic Magnetic polaritons (MPs) in the metal grating and phonon-plasmon polaritons, hybrid hyperbolic phonon-plasmon polaritons in the graphene/hBN film have been excited, resulting in three sharp, high absorption peaks, which are 0.75, 0.97 and 0.97, formed at 5.92 μm, 6.32 μm, and 7.64 μm respectively. The absorption mechanisms have been theoretically analyzed. Local electromagnetic field and power dissipation density are depicted for further elucidating the underlying mechanisms. The different structural parameters and chemical potential, which affect the absorption peak were discussed. These numerical results can provide potential application in the field of optical detection and optoelectronic.

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U2 - 10.1364/OE.26.018230

DO - 10.1364/OE.26.018230

M3 - 文章

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AN - SCOPUS:85049570324

SN - 1094-4087

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SP - 18230

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JO - Optics Express

JF - Optics Express

IS - 14

ER -

Tunable absorption as multi-wavelength at infrared on graphene/hbn/al grating structure

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