Thermal detection of surface plasmons on gold nanohole arrays

Wei Zhang; Zhi Peng Li; Zhi Qiang Guan; Hao Shen; Wen Bo Yu; Wei Dong He; Xiao Peng Yan; Ping Li; Hong Xing Xu

doi:10.1007/s11434-011-4810-7

Thermal detection of surface plasmons on gold nanohole arrays

Wei Zhang, Zhi Peng Li, Zhi Qiang Guan, Hao Shen, Wen Bo Yu, Wei Dong He, Xiao Peng Yan, Ping Li, Hong Xing Xu

School of Mechatronical Engineering

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

4 Citations (Scopus)

Abstract

We used a thin-film thermocouple to detect the thermal effect of surface plasmons excited in Au nanohole array structures. We found that the thermal electromotive force of Au film with periodic nanohole structures is three times greater than that of a bare Au film for 785-nm laser excitation at a given power. This effect is caused by the resonant excitation of localized surface plasmons in the nanoholes. In addition, we found that the thermal electromotive force (EMF) of the Au film with dumbbell-like nanohole arrays depends strongly on the incident polarization. The thermal EMF is the greatest when the excitation light is polarized perpendicular to the long axis of the dumbbell.

Original language	English
Pages (from-to)	68-71
Number of pages	4
Journal	Chinese Science Bulletin
Volume	57
Issue number	1
DOIs	https://doi.org/10.1007/s11434-011-4810-7
Publication status	Published - Jan 2012

Keywords

periodic structure
surface plasmons
thermal effect
thin film thermocouple

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10.1007/s11434-011-4810-7

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title = "Thermal detection of surface plasmons on gold nanohole arrays",

abstract = "We used a thin-film thermocouple to detect the thermal effect of surface plasmons excited in Au nanohole array structures. We found that the thermal electromotive force of Au film with periodic nanohole structures is three times greater than that of a bare Au film for 785-nm laser excitation at a given power. This effect is caused by the resonant excitation of localized surface plasmons in the nanoholes. In addition, we found that the thermal electromotive force (EMF) of the Au film with dumbbell-like nanohole arrays depends strongly on the incident polarization. The thermal EMF is the greatest when the excitation light is polarized perpendicular to the long axis of the dumbbell.",

keywords = "periodic structure, surface plasmons, thermal effect, thin film thermocouple",

author = "Wei Zhang and Li, {Zhi Peng} and Guan, {Zhi Qiang} and Hao Shen and Yu, {Wen Bo} and He, {Wei Dong} and Yan, {Xiao Peng} and Ping Li and Xu, {Hong Xing}",

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T1 - Thermal detection of surface plasmons on gold nanohole arrays

AU - Zhang, Wei

AU - Li, Zhi Peng

AU - Guan, Zhi Qiang

AU - Shen, Hao

AU - Yu, Wen Bo

AU - He, Wei Dong

AU - Yan, Xiao Peng

AU - Li, Ping

AU - Xu, Hong Xing

PY - 2012/1

Y1 - 2012/1

N2 - We used a thin-film thermocouple to detect the thermal effect of surface plasmons excited in Au nanohole array structures. We found that the thermal electromotive force of Au film with periodic nanohole structures is three times greater than that of a bare Au film for 785-nm laser excitation at a given power. This effect is caused by the resonant excitation of localized surface plasmons in the nanoholes. In addition, we found that the thermal electromotive force (EMF) of the Au film with dumbbell-like nanohole arrays depends strongly on the incident polarization. The thermal EMF is the greatest when the excitation light is polarized perpendicular to the long axis of the dumbbell.

AB - We used a thin-film thermocouple to detect the thermal effect of surface plasmons excited in Au nanohole array structures. We found that the thermal electromotive force of Au film with periodic nanohole structures is three times greater than that of a bare Au film for 785-nm laser excitation at a given power. This effect is caused by the resonant excitation of localized surface plasmons in the nanoholes. In addition, we found that the thermal electromotive force (EMF) of the Au film with dumbbell-like nanohole arrays depends strongly on the incident polarization. The thermal EMF is the greatest when the excitation light is polarized perpendicular to the long axis of the dumbbell.

KW - periodic structure

KW - surface plasmons

KW - thermal effect

KW - thin film thermocouple

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DO - 10.1007/s11434-011-4810-7

M3 - Letter

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VL - 57

SP - 68

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JO - Chinese Science Bulletin

JF - Chinese Science Bulletin

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Thermal detection of surface plasmons on gold nanohole arrays

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