Tunable on-chip optical traps for levitating particles based on single-layer metasurface

Sun, Chuang; Pi, Hailong; Kiang, Kian Shen; Georgescu, Tiberius S.; Ou, Jun-Yu; Ulbricht, Hendrik; Yan, Jize

doi:10.1515/nanoph-2023-0873

Cited by 2 publications

(1 citation statement)

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“…The fabrication details can be obtained from our recent publication. [22] Figure 2a,d are the optical images of the two metalen samples. In the following, sample 1 refers to the metalens with a target NA of 0.89, and sample 2 refers to the metalens with a target NA of 0.25.…”

Section: Metalens Design and Characterizationmentioning

confidence: 99%

Near‐Infrared Metalens Empowered Dual‐Mode High Resolution and Large FOV Microscope

Sun,

Pi,

Kiang

et al. 2024

Advanced Optical Materials

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The spiral phase contrast microscope can clearly distinguish the morphological information of the low contrast objects (i.e., biological samples) owing to the isotropic edge‐enhancement effect, while the bright field microscope can image the overall morphology of amplitude objects. However, the imaging resolution, magnification, and field of view of conventional spiral phase contrast microscopes based on 4f filtering configuration are limited by the system's complexity. Here, compact dual‐mode microscopes working at near‐infrared using the engineered metalens are reported, which can be tuned between the spiral phase contrast imaging and bright field imaging by polarization control. The metalens combine the high‐resolution objective lens and polarization‐controlled phase filter into a single‐layer nanofins array. Two infinity‐corrected microscope systems are demonstrated to achieve subwavelength resolution (0.7λ), large magnification (58X), and large field of view (600 × 800 µm). Unstained onion epidermal is imaged by the microscope to show the dual‐mode imaging ability for the biological sample. Finally, a singlet dual‐mode microscope system is demonstrated to show the edge‐detection application for industrial standards. These results can open new opportunities in applications of biological imaging, industrial machine vision, and semiconductor inspection.

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Section: Metalens Design and Characterizationmentioning

confidence: 99%