Fano-resonances in High Index Dielectric Nanowires for Directional Scattering

Wiecha, Peter R.; Cuche, Aurélien; Kallel, Houssem; Francs, Gérard Colas des; Lecestre, Aurélie; Larrieu, Guilhem; Larrey, Vincent; Fournel, Frank; Baron, T.; Arbouet, Arnaud; Paillard, Vincent

doi:10.1007/978-3-319-99731-5_12

Cited by 5 publications

(3 citation statements)

References 121 publications

(120 reference statements)

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“…Following this, Yuan Hsing Fu et al observed the directional scattering behavior of silicon nanoparticles in the visible light range [19]. Later on, a series of work has been carried out to improve the directional scattering efficiency and its operation wavelengths by other mechanisms, such as the Fano resonance [18,20] and the multibody enhanced electric field [21].…”

Section: Introductionmentioning

confidence: 97%

Broadband and Highly Directional Visible Light Scattering by Laser-Splashed Lossless TiO2 Nanoparticles

2021

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All-dielectric nanoparticles, as the counterpart of metallic nanostructures have recently attracted significant interest in manipulating light-matter interaction at a nanoscale. Directional scattering, as an important property of nanoparticles, has been investigated in traditional high refractive index materials, such as silicon, germanium and gallium arsenide in a narrow band range. Here in this paper, we demonstrate that a broadband forward scattering across the entire visible range can be achieved by the low loss TiO2 nanoparticles with moderate refractive index. This mainly stems from the optical interferences between the broadband electric dipole and the magnetic dipole modes. The forward/backward scattering ratio reaches maximum value at the wavelengths satisfying the first Kerker’s condition. Experimentally, the femtosecond pulsed laser was employed to splash different-sized nanoparticles from a thin TiO2 film deposited on the glass substrate. Single particle scattering measurement in both the forward and backward direction was performed by a homemade confocal microscopic system, demonstrating the broadband forward scattering feature. Our research holds great promise for many applications such as light harvesting, photodetection and on-chip photonic devices and so on.

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Section: Introductionmentioning

confidence: 97%

Broadband and Highly Directional Visible Light Scattering by Laser-Splashed Lossless TiO2 Nanoparticles

2021

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“…The impact of shape on resonant-optical absorption in semiconductor has been studied in great detail in literature [86]. This higher optical absorption of deformed particles can be associated with better coupling of light to resonance mode of deformed (rectangular) particles [86,87]. This observation suggests that the guidelines established in this work are applicable to particulate semiconductor photoanodes composed of non-spherical particles.…”

Section: Impact Of Particle Shapementioning

confidence: 70%

“…The deformed particle shows slightly higher optical absorption. The impact of shape on resonant-optical absorption in semiconductor has been studied in great detail in literature [86]. This higher optical absorption of deformed particles can be associated with better coupling of light to resonance mode of deformed (rectangular) particles [86,87].…”

Section: Impact Of Particle Shapementioning

confidence: 99%

Computational study of film morphology impact on light absorption in particulate Ta₃N₅/Si photoanodes for water splitting

Eftekharinia

Danaei

Dabirian

2020

J. Phys. D: Appl. Phys.

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A large class of photoelectrodes for water splitting are processed by assembling nanoparticles onto a silicon solar cell substrate. A fundamental question is the optimal size of constituent nanoparticles that maximizes optical absorption in the photoanode. We use electromagnetic optical calculations to study the impact of particle size on optical absorption of Ta 3 N 5 /Si tandem photoanodes. We found that optical absorption efficiency dramatically increases when particle support Mie resonances, independent of particle shape. Subsequently, monolayers of resonant-size particulate and thin films of Ta 3 N 5 on silicon substrate are studied. Ta 3 N 5 limits overall performance of Ta 3 N 5 /Si tandem device in both devices with the particulate one showing better performance. We take into account material charge transport properties and conditions of imperfect surface coverage of Si solar cell with Ta 3 N 5 nanoparticle. Furthermore, we found that an intermediate reflective layer placed between Ta 3 N 5 and Si solar cell improves photocurrent density of Ta 3 N 5 and the tandem device.

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Multiple Fano Resonances in Plasmonic Waveguide-Based Cavity and Detection of Pathogenic Virus

2023

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Fano-resonances in High Index Dielectric Nanowires for Directional Scattering

Cited by 5 publications

References 121 publications

Broadband and Highly Directional Visible Light Scattering by Laser-Splashed Lossless TiO2 Nanoparticles

Broadband and Highly Directional Visible Light Scattering by Laser-Splashed Lossless TiO2 Nanoparticles

Computational study of film morphology impact on light absorption in particulate Ta₃N₅/Si photoanodes for water splitting

Multiple Fano Resonances in Plasmonic Waveguide-Based Cavity and Detection of Pathogenic Virus

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Fano-resonances in High Index Dielectric Nanowires for Directional Scattering

Cited by 5 publications

References 121 publications

Broadband and Highly Directional Visible Light Scattering by Laser-Splashed Lossless TiO2 Nanoparticles

Broadband and Highly Directional Visible Light Scattering by Laser-Splashed Lossless TiO2 Nanoparticles

Computational study of film morphology impact on light absorption in particulate Ta3N5/Si photoanodes for water splitting

Multiple Fano Resonances in Plasmonic Waveguide-Based Cavity and Detection of Pathogenic Virus

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Computational study of film morphology impact on light absorption in particulate Ta₃N₅/Si photoanodes for water splitting