E. Picard scite author profile

We propose a method to experimentally determine the Clausius–Mossotti factors and surface capacitances of colloidal particles. This two-step method is based on the following: (i) a precise positioning of particles on activated electrodes according to the applied frequency of an electric field and (ii) particles velocities measurements from a pure dielectrophoretic regime to build the Clausius–Mossotti factor. It confirms previous literature methods and measures the surface capacitance values for a wide range of particles such as polystyrene, silica, and gold whose diameters are at least 200 nm.

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Ultra-High Q/V Fabry-Perot microcavity on SOI substrate

Velha¹,

Picard²,

Charvolin³

et al. 2007

Opt. Express

108

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We experimentally demonstrate an ultra high Q/V nanocavity on SOI substrate. The design is based on modal adaptation within the cavity and allows to measure a quality factor of 58.000 for a modal volume of 0.6(lambda/n)(3) . This record Q/V value of 10(5) achieved for a structure standing on a physical substrate, rather than on membrane, is in very good agreement with theoretical predictions also shown. Based on these experimental results, we show that further refinements of the cavity design could lead to Q/V ratios close to 10(6).

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Near-field interactions between a subwavelength tip and a small-volume photonic-crystal nanocavity

et al. 2007

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The fundamentals of the near-field interaction between a subwavelength metallic tip and a photonic-crystal nanocavity are investigated experimentally and theoretically. It is shown experimentally that the cavity resonance is tuned without any degradation by the presence of the tip and that the reported near-field interaction is strongly related to the field distribution within the nanostructure. Then, in light of a perturbation theory, we show that this interaction is selectively related to the electric field or magnetic field distribution within the cavity, depending on the tip properties. © 2007 The American Physical Society

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Ultra-high-reflectivity photonic-bandgap mirrors in a ridge SOI waveguide

Velha¹,

Rodier²,

Lalanne³

et al. 2006

New J. Phys.

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Schnotz

Picard

Hron

1993

Learning and Instruction

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An air-slotted nanoresonator relying on coupled high Q small V Fabry–Perot nanocavities

Foubert

Lalouat

Cluzel

et al. 2009

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We study here the lateral evanescent coupling between photonic crystals cavities. The structure consists in two identical monomode Fabry–Perot nanocavities, integrated on silicon-on-insulator slot-waveguides (WG). Spectral and optical near field measurements were led and supported quantitatively by three dimensional simulations. It appears that this system produces a bimodal response: two resonances corresponding, respectively, to an even and odd mode. Particularly, the even case exhibits a field localization in the air slot inferior to λair/10. We demonstrate that merging a slotted WG structure with state-of-the-art nanocavities is a significant step toward an efficient air-slotted resonator.

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On chip shapeable optical tweezers

Renaut

Cluzel

Dellinger

et al. 2013

Sci Rep

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Particles manipulation with optical forces is known as optical tweezing. While tweezing in free space with laser beams was established in the 1980s, integrating the optical tweezers on a chip is a challenging task. Recent experiments with plasmonic nanoantennas, microring resonators, and photonic crystal nanocavities have demonstrated optical trapping. However, the optical field of a tweezer made of a single microscopic resonator cannot be shaped. So far, this prevents from optically driven micromanipulations. Here we propose an alternative approach where the shape of the optical trap can be tuned by the wavelength in coupled nanobeam cavities. Using these shapeable tweezers, we present micromanipulation of polystyrene microspheres trapped on a silicon chip. These results show that coupled nanobeam cavities are versatile building blocks for optical near-field engineering. They open the way to much complex integrated tweezers using networks of coupled nanobeam cavities for particles or bio-objects manipulation at a larger scale.

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Seventy-fold enhancement of light extraction from a defectless photonic crystal made on silicon-on-insulator

Zelsmann

Picard

Charvolin

et al. 2003

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Very high photoluminescence extraction is observed from defectless two-dimensional photonic crystals etched in the upper 200-nm-thick silicon layer of a silicon-on-insulator (SOI) substrate. Predicted very low group velocity modes near the Γ point of the band structure lying above the light line are used to extract light from the photonic crystal slab into the free space. It is found that light is extracted on a 80-nm-wide band along directions near to the perpendicular to the slab, with an extraction enhancement up to 70 compared to an unpatterned SOI.

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E. Picard

Determination of Clausius–Mossotti factors and surface capacitances for colloidal particles

Ultra-High Q/V Fabry-Perot microcavity on SOI substrate

Near-field interactions between a subwavelength tip and a small-volume photonic-crystal nanocavity

Ultra-high-reflectivity photonic-bandgap mirrors in a ridge SOI waveguide

How do successful and unsuccessful learners use texts and graphics?

An air-slotted nanoresonator relying on coupled high Q small V Fabry–Perot nanocavities

On chip shapeable optical tweezers

Seventy-fold enhancement of light extraction from a defectless photonic crystal made on silicon-on-insulator

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