Far-field subwavelength resolution imaging by spatial spectrum sampling
Tie-Jun Huang, Li-Zheng Yin, Ya Shuang, Jiang-Yu Liu, Yunhua Tan and, Pu-Kun Liu

TL;DR
This paper introduces a novel far-field superresolution imaging method called spatial spectrum sampling, which enables subwavelength resolution by capturing and reconstructing spatial harmonics, including evanescent components, in microwave and terahertz regimes.
Contribution
The paper presents a new far-field superresolution imaging technique using SSP structures to extract spatial harmonic information for subwavelength imaging.
Findings
Achieved 0.17 wavelength resolution experimentally
Demonstrated 2D imaging capability
Validated the method through numerical simulations
Abstract
Imaging below the diffraction limit is always a public interest because of the restricted resolution of conventional imaging systems. To beat the limit, evanescent harmonics decaying in space must participate in the imaging process. Here, we introduce the method of spatial spectrum sampling, a novel far-field superresolution imaging method for microwave and terahertz regime. Strong dispersion and momentum conservation allow the spoof surface plasmon polaritons (SSP) structure to become a sensitive probe for spatial harmonics. This enables that the spatial information of the targets including both propagating and evanescent components, can be extracted by tuning and recording SSP in the far field. Then, the subwavelength resolution is constructed by the inversed Fourier transform of the sampled spatial spectrum. Using the modified subwavelength metallic grating as the spoof plasmonic…
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