Deep subwavelength optical imaging using correlated nano-torches

Yuecheng Shen; Lihong V. Wang; Jung Tsung Shen

doi:10.1063/1.4832070

Deep subwavelength optical imaging using correlated nano-torches

Yuecheng Shen, Lihong V. Wang, Jung Tsung Shen

Department of Electrical & Systems Engineering

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

1 Scopus citations

Abstract

The authors propose and numerically demonstrate an ultra-high resolution (wavelength/50∼40 nm at wavelength λ = 2.08 μ m), high-throughput (∼66%), and non-destructive optical lens with a large contrast-to-noise ratio, based on the notion of correlated nano-torches formed in a subwavelength metallic grating. The correlations between the torches also allow the determination of the complex refractive index of the sample.

Original language	English
Article number	201119
Journal	Applied Physics Letters
Volume	103
Issue number	20
DOIs	https://doi.org/10.1063/1.4832070
State	Published - Nov 11 2013

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abstract = "The authors propose and numerically demonstrate an ultra-high resolution (wavelength/50∼40 nm at wavelength λ = 2.08 μ m), high-throughput (∼66%), and non-destructive optical lens with a large contrast-to-noise ratio, based on the notion of correlated nano-torches formed in a subwavelength metallic grating. The correlations between the torches also allow the determination of the complex refractive index of the sample.",

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N2 - The authors propose and numerically demonstrate an ultra-high resolution (wavelength/50∼40 nm at wavelength λ = 2.08 μ m), high-throughput (∼66%), and non-destructive optical lens with a large contrast-to-noise ratio, based on the notion of correlated nano-torches formed in a subwavelength metallic grating. The correlations between the torches also allow the determination of the complex refractive index of the sample.

AB - The authors propose and numerically demonstrate an ultra-high resolution (wavelength/50∼40 nm at wavelength λ = 2.08 μ m), high-throughput (∼66%), and non-destructive optical lens with a large contrast-to-noise ratio, based on the notion of correlated nano-torches formed in a subwavelength metallic grating. The correlations between the torches also allow the determination of the complex refractive index of the sample.

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Deep subwavelength optical imaging using correlated nano-torches

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