2017
DOI: 10.7567/apex.10.082501
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Contrast enhancement of microsphere-assisted super-resolution imaging in dark-field microscopy

Abstract: We report a method of boosting the imaging contrast of microsphere-assisted super-resolution visualization by utilizing dark-field illumination (DFI). We conducted experiments on both 10-µm-diameter silica (SiO2) microspheres with refractive index n ∼ 1.46 under no and partial immersion in ethyl alcohol (n ∼ 1.36) and 20-µm-diameter barium titanate glass (BTG, n ∼ 1.9) microspheres with full immersion to show the super-resolution capability. We experimentally demonstrated that the imaging contrast and uniformi… Show more

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Cited by 24 publications
(9 citation statements)
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“…More systematic studies as well as the applications of microsphere-based (or the derivatives of microspheres such as liquid droplets and microbers) imaging can be found extensively in the mainstream optics and photonics journals. 48,[180][181][182][183][184][185][186][187][188] Different than other super-resolution imaging techniques like hyperlens and superlens, [189][190][191] super-oscillation lens, 17,[192][193][194] and uorescence-based modalities, 195,196 the underlying physics of imaging beyond the Rayleigh limit via dielectric microspheres has not been completely revealed yet, although there was a study that claimed that it is due to the FWHM of PNJs. 31 Maslov et al investigated the theoretical limits of resolution available in microsphere-based nanoscopy using incoherent point emitters in the air.…”
Section: Deep-subwavelength Fwhm and Neareld Effect Of Pnjsmentioning
confidence: 99%
“…More systematic studies as well as the applications of microsphere-based (or the derivatives of microspheres such as liquid droplets and microbers) imaging can be found extensively in the mainstream optics and photonics journals. 48,[180][181][182][183][184][185][186][187][188] Different than other super-resolution imaging techniques like hyperlens and superlens, [189][190][191] super-oscillation lens, 17,[192][193][194] and uorescence-based modalities, 195,196 the underlying physics of imaging beyond the Rayleigh limit via dielectric microspheres has not been completely revealed yet, although there was a study that claimed that it is due to the FWHM of PNJs. 31 Maslov et al investigated the theoretical limits of resolution available in microsphere-based nanoscopy using incoherent point emitters in the air.…”
Section: Deep-subwavelength Fwhm and Neareld Effect Of Pnjsmentioning
confidence: 99%
“…Besides these techniques, in 2011, an optical microscope aided by fused silica (SiO 2 ) microspheres with low index ( n ∼ 1.46) in air was used to achieve 100-nm-resolution imaging under white light illumination [6], and the observation power of microscopes was enhanced greatly. The microscopy assisted by index-different microspheres, typically the SiO 2 , polystyrene (PS), melamine formaldehyde (MF), barium titanate glass (BTG) microsphere, demonstrates the feasibility to realize super-resolution imaging of nanostructures and biological samples in different conditions [7][8][9][10][11][12]. Many other non-spherical and non-symmetrical particle-lens have also been investigated [13,14], and the main advantage of a sphere is that it can achieve ultra-sharp focusing of the incoming wave to generate extreme spatial field localization.…”
Section: Introductionmentioning
confidence: 99%
“…Darafsheh et al realized optical super-resolution imaging by using high-refractive-index barium titanate glass (BTG) microspheres ( n ∼ 1.9-2.1) totally immersed in a liquid environment [8], and they also studied the influence of immersion medium on imaging performance in microsphere-assisted microscopy [9]. This label-free super-resolution imaging technique has attracted many research groups across the world, demonstrating sub-diffraction discerning ability in nanostructure detections and biological observations [10][11][12][13]. The super-resolution mechanism of microsphere-assisted microscopy is still a heated topic [14][15][16].…”
Section: Introductionmentioning
confidence: 99%