Diffraction-limit focusing using a 60-nm-thick spiral slit

Zixian Ma; Zixian Ma; Zixian Ma; Xin Zhang; Xin Zhang; Xin Zhang; Yanwen Hu; Yanwen Hu; Yanwen Hu; Hao Yin; Hao Yin; Hao Yin; Zhen Li; Zhen Li; Zhen Li; Zhen Li; Zhenqiang Chen; Zhenqiang Chen; Zhenqiang Chen; Shenhe Fu; Shenhe Fu; Shenhe Fu; Shenhe Fu

doi:10.1364/OL.464571

Optics Letters
Vol. 47,
Issue 13,
pp. 3219-3222
(2022)
•https://doi.org/10.1364/OL.464571

Diffraction-limit focusing using a 60-nm-thick spiral slit

Zixian Ma, Xin Zhang, Yanwen Hu, Hao Yin, Zhen Li, Zhenqiang Chen, and Shenhe Fu

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Zixian Ma, Xin Zhang, Yanwen Hu, Hao Yin, Zhen Li, Zhenqiang Chen, and Shenhe Fu, "Diffraction-limit focusing using a 60-nm-thick spiral slit," Opt. Lett. 47, 3219-3222 (2022)

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Abstract

We demonstrate a technique for diffraction-limit focusing, on the basis of a spatial truncation of incident light using spirally structured slit motifs. The spiral pattern leads to a global phase domain where the diffractive wave vectors are distributed in phase. We fabricate such a spiral pattern on a 60-nm-thick metallic film, capable of converting an orbital-angular-momentum beam to a non-helical high-resolution diffractive focusing beam, resulting in a high numerical aperture of 0.89 in air, and of up to 1.07 in an oil-immersion scenario. The topological complementarity between the incident beam and the slit motifs generates broadband subwavelength focusing. The idea can be extended to large-scale scenarios with larger constituents. The presented technique is more accessible to low-cost fabrications as compared with metasurface-based focusing elements.

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Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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Abstract

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Optics Letters