Publications
795 results found
Kühner L, Ren H, Berté R, et al., 2021, Bound states in the continuum in symmetry broken resonator rings
Plidschun M, Ren H, Kim J, et al., 2021, Ultra-high numerical aperture meta-fiber for flexible optical trapping
Kühne J, Weber T, Kühner L, et al., 2021, Fabrication tolerance impact on BIC metasurface resonances
Sousa-Castillo A, Marino-López A, Negrín-Montecelo Y, et al., 2021, Enhancing photocatalytic efficiency through plasmonic nanoparticles with Au-TiO2 based nanostructures
Hüttenhofer L, Tittl A, Maier SA, 2021, Anapole-assisted absorption engineering in arrays of coupled amorphous GaP nanodisks
Glass D, Cortes E, Quesada-Cabrera R, et al., 2021, Generating, probing and utilising photo-induced surface oxygen vacancies for trace molecular detection
Sortino L, Zotev PG, Sapienza R, et al., 2021, Enhanced light-matter interaction in atomically thin semiconductors and 2D single photon emitters coupled to dielectric nano-antennas
Ezendam S, Gargiulo J, Sousa-Castillo A, et al., 2021, Super-resolution mapping of light-driven reactions on metal nanostructures
Tilmann B, Grinblat G, Li Y, et al., 2021, Gallium phopshide nanostructures on transparent substrates for nonlinear and ultrafast nanophotonics
Mancini A, Gubbin CR, Berte R, et al., 2021, Near-field spectroscopy of Silicon Carbide phonon polaritons resonators, Pages: 504-505
Antennas supporting surface phonon polaritons are an interesting alternative to common plasmonic resonators in the infrared region, due to their reduced losses and higher field confinement. However, many applications involving SPhPs antennas require the knowledge of their near-field response, which cannot be directly inferred from common far-field measurements. We study the near-field spectral response of arrays of Silicon Carbide antennas by means of scattering scanning near field microscopy and discuss the influence of the AFM tip on the experimental results.
Schmidt MA, Schneidewind H, Hübner U, et al., 2021, Metaphotonics meet fibers: a novel pathway towards boosting incoupling efficiencies and single-fiber optical trapping, Pages: 293-294
Here we present that interfacing optical fiber with nanostructures defines a novel class of fiber-integrated devices – nanostructure-interfaced fiber – allowing to reach new domains of applications for Fiber Optics research. Through 3D nanoprinting and modified electron-beam lithography, we integrate high NA-meta-lenses and dielectric ring gratings onto the end faces of single mode fibers. These devices allows for efficient light incoupling at angles as large as 80° and for trapping polymer microbeads with one single-mode fiber device.
Bruno V, Devault C, Vezzoli S, et al., 2021, Negative refraction in time-varying, strongly-coupled plasmonic antenna-ENZ systems, Pages: 989-990
We demonstrate high efficiency in the generation of optical induced time-reversal phase conjugate and negative refraction waves, from a temporal modulated deeply subwavelength epsilon-near-zero (ENZ) film integrated within a plasmonic metasurface. The strong coupling between the plasmonic resonance and the ENZ modes leads to a conversion efficiency that is more than 4 orders of magnitude greater than the bare ENZ film.
Noor A, Damodaran AR, Lee IH, et al., 2021, Plasmonic Enhancement of Second-Harmonic Generation with Film-Coupled Nanopatch Antennas, Pages: 991-992
Field enhancements associated with resonant excitation of plasmonic structures have shown tremendous potential to improve the efficiencies of nonlinear wave-mixing processes at the nano-scale. In this work, we present an optimal mode-matched second-harmonic generation from hybridplasmonic film-coupled nanopatch antennas.
Ren H, Fang X, Jang J, et al., 2021, 3D-printed complex-amplitude metasurface for orbital angular momentum holography, Pages: 408-409
Metasurface holograms, consisting of subwavelength structures on a flat surface for optical wavefront shaping, promise new applications in high-capacity information technologies. To increase the bandwidth of a metasurface hologram, different degrees of freedom of light and in particular, orbital angular momentum with an infinite quantum number hold great promise. However, phase-only orbital angular momentum-multiplexing holograms with neglected amplitude information suffer strong crosstalk. Here, we demonstrate the design and 3D laser printing of a large-scale complex-amplitude metasurface hologram for high-dimensional orbital angular momentum-multiplexing holography.
Sortino L, Zotev PG, Sapienza R, et al., 2021, Enhanced light-matter interaction in atomically thin semiconductors and 2D single photon emitters coupled to dielectric nano-antennas
Büchner R, Weber T, Maier SA, et al., 2021, Tailoring the response of gold nanoantennas in optical near-field measurements: Orientation and field size
Plidschun M, Ren H, Kim J, et al., 2021, Ultra-high numerical aperture meta-fiber for flexible optical trapping
Ezendam S, Gargiulo J, Sousa-Castillo A, et al., 2021, Super-resolution mapping of light-driven reactions on metal nanostructures
Hüttenhofer L, Tittl A, Maier SA, 2021, Anapole-assisted absorption engineering in arrays of coupled amorphous GaP nanodisks
Tilmann B, Grinblat G, Li Y, et al., 2021, Gallium phopshide nanostructures on transparent substrates for nonlinear and ultrafast nanophotonics
Liu C, Mao P, Niu Y, et al., 2021, Material-insensitive optical response from disordered plasmonic nanostructures
Ren H, Maier SA, 2021, 3D meta-optics for high-bandwidth twisted light holography
A complex-amplitude metasurface hologram designed in the moment space is fabricated via 3D laser nanoprinting for twisted light holography. The metasurface hologram allows for high-bandwidth orbital angular momentum multiplexing holography and a holographic video display.
Glass D, Cortes E, Quesada-Cabrera R, et al., 2021, Generating, probing and utilising photo-induced surface oxygen vacancies for trace molecular detection
Kühne J, Weber T, Kühner L, et al., 2021, Fabrication tolerance impact on BIC metasurface resonances
Kühner L, Ren H, Berté R, et al., 2021, Bound states in the continuum in symmetry broken resonator rings
Busleev N, Kudryashov S, Saraeva I, et al., 2021, Few Percent Efficient Polarization-Sensitive Conversion in Nonlinear Plasmonic Interactions Inside Oligomeric Gold Structures, SENSORS, Vol: 21
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Plidschun M, Ren H, Kim J, et al., 2021, Ultra-high numerical aperture meta-fiber for flexible optical trapping, Conference on Lasers and Electro-Optics Europe / European Quantum Electronics Conference (CLEO/Europe-EQEC), Publisher: IEEE
Buchner R, Weber T, Maier SA, et al., 2021, Tailoring the Response of Gold Nanoantennas in Optical Near-Field Measurements: Orientation and Field Size, Conference on Lasers and Electro-Optics Europe / European Quantum Electronics Conference (CLEO/Europe-EQEC), Publisher: IEEE
Kuehne J, Weber T, Kuehner L, et al., 2021, Fabrication tolerance impact on BIC metasurface resonances, Conference on Lasers and Electro-Optics Europe / European Quantum Electronics Conference (CLEO/Europe-EQEC), Publisher: IEEE
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- Cite
- Citations: 1
Tilmann B, Grinblat G, Li Y, et al., 2021, Gallium Phopshide Nanostructures on Transparent Substrates for Nonlinear and Ultrafast Nanophotonics, Conference on Lasers and Electro-Optics Europe / European Quantum Electronics Conference (CLEO/Europe-EQEC), Publisher: IEEE
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