A Super Lens System for Demagnification Imaging Beyond the Diffraction Limit

Jianjie Dong; Juan Liu; Xingxing Zhao; Peng Liu; Jing Liu; Guoguo Kang; Jinghui Xie; Yongtian Wang

doi:10.1007/s11468-013-9570-6

A Super Lens System for Demagnification Imaging Beyond the Diffraction Limit

Jianjie Dong, Juan Liu^*, Xingxing Zhao, Peng Liu, Jing Liu^*, Guoguo Kang, Jinghui Xie, Yongtian Wang

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

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

13 Citations (Scopus)

Abstract

A super lens system is proposed to achieve subdiffraction limit demagnification imaging. The super lens system consists of a hyperlens with planar input and output surfaces, a metal superlens, and a plasmonic reflector. By employing the hyperlens to transform evanescent waves into propagating waves and employing the metal superlens and the plasmonic reflector to amplify evanescent waves, the super lens system can produce a subdiffraction limit image with relatively high electric field intensity. The reduction factor of the super lens system depends on the geometric parameters of the hyperlens. Simulation results show that an image with a half-pitch resolution of about one tenth the operating wavelength and a reduction factor of about 2.2 can be produced by the super lens system. The proposed super lens system has potential applications in nanolithography.

Original language	English
Pages (from-to)	1543-1550
Number of pages	8
Journal	Plasmonics
Volume	8
Issue number	4
DOIs	https://doi.org/10.1007/s11468-013-9570-6
Publication status	Published - Dec 2013

Keywords

Subwavelength optical imaging
Superlens
Surface plasmon

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title = "A Super Lens System for Demagnification Imaging Beyond the Diffraction Limit",

abstract = "A super lens system is proposed to achieve subdiffraction limit demagnification imaging. The super lens system consists of a hyperlens with planar input and output surfaces, a metal superlens, and a plasmonic reflector. By employing the hyperlens to transform evanescent waves into propagating waves and employing the metal superlens and the plasmonic reflector to amplify evanescent waves, the super lens system can produce a subdiffraction limit image with relatively high electric field intensity. The reduction factor of the super lens system depends on the geometric parameters of the hyperlens. Simulation results show that an image with a half-pitch resolution of about one tenth the operating wavelength and a reduction factor of about 2.2 can be produced by the super lens system. The proposed super lens system has potential applications in nanolithography.",

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T1 - A Super Lens System for Demagnification Imaging Beyond the Diffraction Limit

AU - Dong, Jianjie

AU - Liu, Juan

AU - Zhao, Xingxing

AU - Liu, Peng

AU - Liu, Jing

AU - Kang, Guoguo

AU - Xie, Jinghui

AU - Wang, Yongtian

PY - 2013/12

Y1 - 2013/12

N2 - A super lens system is proposed to achieve subdiffraction limit demagnification imaging. The super lens system consists of a hyperlens with planar input and output surfaces, a metal superlens, and a plasmonic reflector. By employing the hyperlens to transform evanescent waves into propagating waves and employing the metal superlens and the plasmonic reflector to amplify evanescent waves, the super lens system can produce a subdiffraction limit image with relatively high electric field intensity. The reduction factor of the super lens system depends on the geometric parameters of the hyperlens. Simulation results show that an image with a half-pitch resolution of about one tenth the operating wavelength and a reduction factor of about 2.2 can be produced by the super lens system. The proposed super lens system has potential applications in nanolithography.

AB - A super lens system is proposed to achieve subdiffraction limit demagnification imaging. The super lens system consists of a hyperlens with planar input and output surfaces, a metal superlens, and a plasmonic reflector. By employing the hyperlens to transform evanescent waves into propagating waves and employing the metal superlens and the plasmonic reflector to amplify evanescent waves, the super lens system can produce a subdiffraction limit image with relatively high electric field intensity. The reduction factor of the super lens system depends on the geometric parameters of the hyperlens. Simulation results show that an image with a half-pitch resolution of about one tenth the operating wavelength and a reduction factor of about 2.2 can be produced by the super lens system. The proposed super lens system has potential applications in nanolithography.

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A Super Lens System for Demagnification Imaging Beyond the Diffraction Limit

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Keywords

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