Stefan Prorok scite author profile

Resonant electromagnetic properties of nanoparticles fabricated from high-index semiconductor or dielectric materials are very promising for the realization of novel nanoantennas and metamaterials. In this paper we study optical resonances of Si nanocylinders located on a silica substrate. Multipole analysis of the experimental scattering spectra, based on the decomposed discrete dipole approximation, confirms resonant excitation of electric and magnetic dipole modes in the Si nanocylinders. Influences of light polarization and incident angle on the scattering properties of the nanocylinders are studied. It is shown that the dependence of resonant excitation of the electric and magnetic modes in the nanocylinders on incident angle and polarization of light allows controlling and manipulating the scattered light in this system. The demonstrated properties of Si nanocylinders can be used for the realization of dielectric metasurfaces with different functional optical properties.

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40 GHz electro-optic modulation in hybrid silicon–organic slotted photonic crystal waveguides

Wülbern

Prorok

Hampe

et al. 2010

Opt. Lett.

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In this Letter we demonstrate broadband electro-optic modulation with frequencies of up to 40 GHz in slotted photonic crystal waveguides based on silicon-on-insulator substrates covered and infiltrated with a nonlinear optical polymer. Two-dimensional photonic crystal waveguides in silicon enable integrated optical devices with an extremely small geometric footprint on the scale of micrometers. The slotted waveguide design optimizes the overlap of the optical and electric fields in the second-order nonlinear optical medium and, hence, the interaction of the optical and electric waves.

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Trimming of high-Q-factor silicon ring resonators by electron beam bleaching

et al. 2012

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We demonstrate a novel position-resolved resonance trimming strategy for silicon ring resonators. Ring resonators are covered with a chromophore-doped guest host polymer cladding. Illumination of the polymer cladding with high-energy electrons causes a bleaching of the chromophore molecules. Bleaching of the chromophores induces a reduction of the polymer refractive index, which can be used to trim the resonance frequency of the ring resonators. A maximum refractive index change of 0.06 and a TM polarization resonance shift of 16.4 nm have been measured. A Q factor of 20,000 before bleaching remains unaltered after the electron beam exposure process.

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Mechanism that governs the electro-optic response of second-order nonlinear polymers on silicon substrates

Schulz

Prorok

Jalas

et al. 2015

Opt. Mater. Express

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Configurable silicon photonic crystal waveguides

Prorok

Petrov

Eich

et al. 2013

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In this Letter, we demonstrate that the mode cut off of a photonic crystal waveguide can be trimmed with high accuracy by electron beam bleaching of a chromophore doped polymer cladding. Using this method, configurable waveguides are realized, which allow for spatially resolved changes of the photonic crystal's effective lattice constant as small as 7.6 pm. We show three different examples how to take advantage of configurable photonic crystal waveguides: Shifting of the complete transmission spectrum, definition of cavities with high quality factor, and tuning of existing cavities.

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Stefan Prorok

Optical spectroscopy of single Si nanocylinders with magnetic and electric resonances

40 GHz electro-optic modulation in hybrid silicon–organic slotted photonic crystal waveguides

Trimming of high-Q-factor silicon ring resonators by electron beam bleaching

Mechanism that governs the electro-optic response of second-order nonlinear polymers on silicon substrates

Configurable silicon photonic crystal waveguides

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