External Field Response and Applications of Metal Coated Hemispherical Janus Particles

Aizawa, So; Seto, Kazuto; Tokunaga, Eiji

doi:10.3390/app8040653

Cited by 3 publications

(4 citation statements)

References 38 publications

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“…Based on this research, we extended our study to develop a new (to the best of our knowledge) method [94] of photonic hook-based near-field oblique illumination microscopy with super contrast subwavelength imaging. It was experimentally demonstrated [31,95] for the first time that the Janus particle [96][97][98] provides oblique illumination [99][100][101] of imaging objects by localized structured curved beams, which leads to a considerable improvement in the near-field imaging contrast without the use of immersion medium (Figure 4). One can see that the oblique illumination (illumination by PH) results in the diffracted order of +1 on the particle, which finally allows increasing the image contrast.…”

Section: Photonic Hook Based High-contrast Subwavelength Imagingmentioning

confidence: 99%

Mesotronics: Some New, Unusual Optical Effects

Minin

2022

Photonics

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The recently emerged field of Mesotronics provides novel opportunities for subwavelength magnetic and field localization and giant enhancement by mesoscale dielectric particles and structures from low-index to high-index materials, supported by novel optical phenomena. In this case, two regions: non-resonant and resonant, can be distinguished. In this short review, which is a direct continuation of our recently published study, we continue to present the authors’ point of view on some new optical effects in dielectric mesotronics. Among them are anomalous apodization effect in phase mesoscale gratings, new effects on high order Fano-resonances and extreme effects in field localization, mesoscale particle-based super-resolution and high-speed communications, photonic hook-based high-contrast subwavelength imaging, and reverse optical energy flow in a perforated resonant spherical particle.

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Section: Photonic Hook Based High-contrast Subwavelength Imagingmentioning

confidence: 99%

Mesotronics: Some New, Unusual Optical Effects

Minin

2022

Photonics

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“…5 Prior studies have also considered single particles in suspension whose orientation alters the apparent suspension optical signature through reflected or transmitted light with limited apparent contrast. 6,7 Under the influence of a magnetic field, micrometer-scale Janus particles having iron caps will assemble into linear chains of rod-like particles and the magnetic field can then be used to dynamically reorient these rods, 8,9 as shown in Figure 1. There is a distinct advantage to this approach.…”

Section: Introductionmentioning

confidence: 99%

“…Since their first description, their use in manipulating light has been envisioned with regard to design of digital displays of physically rotating single particles in electric or magnetic fields. − This approach primarily depends on the reflection and scattering of light manipulated by the exposure of the two different faces of the particle and often requires a significant effort in designing the field as is done in e-ink displays that migrate two different colored dispersed particles in an electrode stack . Prior studies have also considered single particles in suspension whose orientation alters the apparent suspension optical signature through reflected or transmitted light with limited apparent contrast. , …”

Section: Introductionmentioning

confidence: 99%

Dynamic Emissivity of Self-Assembled Magnetoresponsive Janus Particle Chain Suspensions

Gao

Wilson-Whitford

Han

et al. 2022

ACS Appl. Opt. Mater.

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Suspensions of magnetoresponsive Janus colloids form chains and undergo alignment under the influence of a magnetic field. When the magnetic field is aligned with a light path, light transmission through the sample increases as compared to randomly or orthogonally oriented chains. This study investigates the emissivity response of this suspension as a function of particle concentration and magnetic field strength. A variation of the Beer–Lambert model and ray-tracing simulations capture the behavior of the experimentally measured difference in intensity between magnetically activated and nonactivated Brownian suspensions. Experiments demonstrate up to 25% contrast in transmission of visible light, which may be further optimized through materials selection. Similar experiments when these Janus particle chains are suspended in carbon tetrachloride demonstrate an emissivity variation in the near-infrared of ∼10%, again possibly optimized through further materials selection.

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“…Patchy particles are also a type of optical functional materials. For example, the mirror made of Ag-coated patchy particles can have optical responses to external electric and magnetic fields, and its optical reflectivity can be adjusted in real-time by changing the external fields [24]. Here we present the performance of super-resolution imaging in air using patchy microspheres.…”

Section: Introductionmentioning

confidence: 99%

Super-Resolution Imaging with Patchy Microspheres

Shang

Tang

et al. 2021

Photonics

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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 low imaging contrast in air, which hinders the application of this technique. In this work, we demonstrate that 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.

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External Field Response and Applications of Metal Coated Hemispherical Janus Particles

Cited by 3 publications

References 38 publications

Mesotronics: Some New, Unusual Optical Effects

Mesotronics: Some New, Unusual Optical Effects

Dynamic Emissivity of Self-Assembled Magnetoresponsive Janus Particle Chain Suspensions

Super-Resolution Imaging with Patchy Microspheres

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