Early and late-onset preeclampsia: effects of DDAH2 polymorphisms on ADMA levels and association with DDAH2 haplotypes

We investigate optical second-harmonic generation (SHG) from metasurfaces where noncentrosymmetric V-shaped gold nanoparticles are ordered into regular array configurations. In contrast to expectations, a substantial enhancement of the SHG signal is observed when the number density of the particles in the array is reduced. More specifically, by halving the number density, we obtain over 5-fold enhancement in SHG intensity. This striking result is attributed to favorable interparticle interactions mediated by the lattice, where surface-lattice resonances lead to spectral narrowing of the plasmon resonances. Importantly, however, the results cannot be explained by the improved quality of the plasmon resonance alone. Instead, the lattice interactions also lead to further enhancement of the local fields at the particles. The experimental observations agree very well with results obtained from numerical simulations including lattice interactions.

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Tailorable second‐harmonic generation from an individual nanowire using spatially phase‐shaped beams

Turquet

Kakko

Zang

et al. 2016

Laser & Photonics Reviews

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The ability to control the optical field in the vicinity of an individual nano-object is an obvious stepping-stone in the tailoring of light-matter interactions at the nanoscale. Earlier reports on tailoring light fields in the vicinity of a nano-object have been restricted by their dependence on cumbersome optical or fabrication techniques, have relied mostly on in-plane electric field polarizations, and have been demonstrated only for bulk materials and structures with strong in-plane anisotropies. In addition, traditional methods for manipulating the longitudinal electric fields are significantly hindered by the lack of appropriate probes that can be used to unambiguously measure or calibrate the light coupling efficiency to nano-objects. Here, we demonstrate such a possibility for the specific case of optical second-harmonic generation (SHG). Our technique relies on spatial phase-shaping of a high-order laser beam to tailor the longitudinal fields at the beam focus and allows SHG from an individual and well-defined vertically-aligned GaAs nanowire to be manipulated on demand. Our technique is applicable to tailoring the efficiency of nonlinear emission on the nanoscale and to arbitrary polarization control at the beam focus in general.

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Lower bound for the spatial extent of localized modes in photonic-crystal waveguides with small random imperfections

Faggiani

Baron

Zang

et al. 2016

Sci Rep

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Light localization due to random imperfections in periodic media is paramount in photonics research. The group index is known to be a key parameter for localization near photonic band edges, since small group velocities reinforce light interaction with imperfections. Here, we show that the size of the smallest localized mode that is formed at the band edge of a one-dimensional periodic medium is driven instead by the effective photon mass, i.e. the flatness of the dispersion curve. Our theoretical prediction is supported by numerical simulations, which reveal that photonic-crystal waveguides can exhibit surprisingly small localized modes, much smaller than those observed in Bragg stacks thanks to their larger effective photon mass. This possibility is demonstrated experimentally with a photonic-crystal waveguide fabricated without any intentional disorder, for which near-field measurements allow us to distinctly observe a wavelength-scale localized mode despite the smallness (~1/1000 of a wavelength) of the fabrication imperfections.

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Collective Effects in Second-Harmonic Generation from Plasmonic Oligomers

et al. 2018

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We investigate collective effects in plasmonic oligomers of different symmetries using second-harmonic generation (SHG) microscopy with cylindrical vector beams (CVBs). The oligomers consist of gold nanorods that have a longitudinal plasmon resonance close to the fundamental wavelength that is used for SHG excitation and whose long axes are arranged locally such that they follow the distribution of the transverse component of the electric field of radially or azimuthally polarized CVBs in the focal plane. We observe that SHG from such rotationally symmetric oligomers is strongly modified by the interplay between the polarization properties of the CVB and interparticle coupling. We find that the oligomers with radially oriented nanorods exhibit small coupling effects. In contrast, we find that the oligomers with azimuthally oriented nanorods exhibit large coupling effects that lead to silencing of SHG from the whole structure. Our experimental results are in very good agreement with numerical calculations based on the boundary element method. The work describes a new route for studying coupling effects in complex arrangements of nano-objects and thereby for tailoring the efficiency of nonlinear optical effects in such structures.

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Xiaorun Zang

Less Is More: Enhancement of Second-Harmonic Generation from Metasurfaces by Reduced Nanoparticle Density

Tailorable second‐harmonic generation from an individual nanowire using spatially phase‐shaped beams

Lower bound for the spatial extent of localized modes in photonic-crystal waveguides with small random imperfections

Collective Effects in Second-Harmonic Generation from Plasmonic Oligomers

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