Super-Resolution Imaging with Patchy Microspheres

Qingqing Shang; Fen Tang; Lingya Yu; Hamid Oubaha; Darwin Caina; Songlin Yang; Sorin Melinte; Chao Zuo; James  Wang; Ran Ye

doi:10.3390/photonics8110513

Super-Resolution Imaging with Patchy Microspheres

Qingqing Shang, Fen Tang, Lingya Yu, Hamid Oubaha, Darwin Caina, Songlin Yang, Sorin Melinte, Chao Zuo, James Wang, Ran Ye

School of Computer Science & Engineering

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Abstract

The diffraction limit is a fundamental barrier in optical microscopy, which restricts the smallest resolvable feature size of a microscopic system. Microsphere-based microscopy has proven to be a promising tool for challenging the diffraction limit. Nevertheless, the microspheres have a lowimaging contrast in air, which hinders the application of this technique. In this work, we demonstratethat this challenge can be effectively overcome by using partially Ag-plated microspheres. The deposited Ag film acts as an aperture stop that blocks a portion of the incident beam, forming a photonic hook and an oblique near-field illumination. Such a photonic hook significantly enhanced the imaging contrast of the system, as experimentally verified by imaging the Blu-ray disc surface and colloidal particle arrays

Original language	English
Article number	513
Journal	Photonics
Volume	8
DOIs	https://doi.org/10.3390/photonics8110513
Publication status	Published - 15 Nov 2021

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photonics-08-00513Licence: CC BY

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title = "Super-Resolution Imaging with Patchy Microspheres",

abstract = "The diffraction limit is a fundamental barrier in optical microscopy, which restricts the smallest resolvable feature size of a microscopic system. Microsphere-based microscopy has proven to be a promising tool for challenging the diffraction limit. Nevertheless, the microspheres have a lowimaging contrast in air, which hinders the application of this technique. In this work, we demonstratethat this challenge can be effectively overcome by using partially Ag-plated microspheres. The deposited Ag film acts as an aperture stop that blocks a portion of the incident beam, forming a photonic hook and an oblique near-field illumination. Such a photonic hook significantly enhanced the imaging contrast of the system, as experimentally verified by imaging the Blu-ray disc surface and colloidal particle arrays",

author = "Qingqing Shang and Fen Tang and Lingya Yu and Hamid Oubaha and Darwin Caina and Songlin Yang and Sorin Melinte and Chao Zuo and James Wang and Ran Ye",

year = "2021",

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day = "15",

doi = "10.3390/photonics8110513",

language = "English",

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T1 - Super-Resolution Imaging with Patchy Microspheres

AU - Shang, Qingqing

AU - Tang, Fen

AU - Yu, Lingya

AU - Oubaha, Hamid

AU - Caina, Darwin

AU - Yang, Songlin

AU - Melinte, Sorin

AU - Zuo, Chao

AU - Wang, James

AU - Ye, Ran

PY - 2021/11/15

Y1 - 2021/11/15

N2 - The diffraction limit is a fundamental barrier in optical microscopy, which restricts the smallest resolvable feature size of a microscopic system. Microsphere-based microscopy has proven to be a promising tool for challenging the diffraction limit. Nevertheless, the microspheres have a lowimaging contrast in air, which hinders the application of this technique. In this work, we demonstratethat this challenge can be effectively overcome by using partially Ag-plated microspheres. The deposited Ag film acts as an aperture stop that blocks a portion of the incident beam, forming a photonic hook and an oblique near-field illumination. Such a photonic hook significantly enhanced the imaging contrast of the system, as experimentally verified by imaging the Blu-ray disc surface and colloidal particle arrays

AB - The diffraction limit is a fundamental barrier in optical microscopy, which restricts the smallest resolvable feature size of a microscopic system. Microsphere-based microscopy has proven to be a promising tool for challenging the diffraction limit. Nevertheless, the microspheres have a lowimaging contrast in air, which hinders the application of this technique. In this work, we demonstratethat this challenge can be effectively overcome by using partially Ag-plated microspheres. The deposited Ag film acts as an aperture stop that blocks a portion of the incident beam, forming a photonic hook and an oblique near-field illumination. Such a photonic hook significantly enhanced the imaging contrast of the system, as experimentally verified by imaging the Blu-ray disc surface and colloidal particle arrays

U2 - 10.3390/photonics8110513

DO - 10.3390/photonics8110513

M3 - Article

SN - 2304-6732

VL - 8

JO - Photonics

JF - Photonics

M1 - 513

ER -

Super-Resolution Imaging with Patchy Microspheres

Abstract

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