Your search keyword '"Hadji, Emmanuel"' showing total 3 results

1. Tunable optical lattices in the near-field of a few-mode nanophotonic waveguide.

Author

Pin, Christophe, Jager, Jean-Baptiste, Tardif, Manon, Picard, Emmanuel, Hadji, Emmanuel, de Fornel, Frédérique, Cluzel, Benoît, Fähnle, O., and Vasdekis, A.

Subjects

NANOPHOTONICS, TUNABLE lasers, OPTICAL lattices, WAVEGUIDES, OPTICAL tomography

Abstract

Due to the action of the scattering force, particles that are optically trapped at the surface of a waveguide are propelled in the direction of the light propagation. In this work, we demonstrate an original approach for creating tunable periodic arrays of optical traps along a few-mode silicon nanophotonic waveguide. We show how the near-field optical forces at the surface of the waveguide are periodically modulated when two guided modes with different propagation constants are simultaneously excited. The phenomenon is used to achieve stable trapping of a large number of dielectric particles or bacteria along a single waveguide. By controlling the light coupling conditions and the laser wavelength, we investigate several techniques for manipulating the trapped particles. Especially, we demonstrate that the period of the optical lattice can be finely tuned by adjusting the laser wavelength. This effect can be used to control the trap positions, and thus transport the trapped particles in both directions along the waveguide. [ABSTRACT FROM AUTHOR]

Published

2019

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

Author

Foubert, Kevin, Lalouat, Loïc, Cluzel, Benoît, Picard, Emmanuel, Peyrade, David, de Fornel, Frédérique, and Hadji, Emmanuel

Subjects

RESONANCE, WAVEGUIDES, CRYSTALS, CAVITY resonators, SILICON

Abstract

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. [ABSTRACT FROM AUTHOR]

Published

2009

3. Near-field modal microscopy of subwavelength light confinement in multimode silicon slot waveguides.

Author

Foubert, Kevin, Lalouat, Loïc, Cluzel, Benoît, Picard, Emmanuel, Peyrade, David, Delamadeleine, Eric, de Fornel, Frédérique, and Hadji, Emmanuel

Subjects

WAVEGUIDES, NEAR-field microscopy, ELECTRICAL conductors, ELECTRIC waves, PHYSICS

Abstract

Silicon-on-insulator slot waveguides are studied by scanning near-field optical microscopy. Images of the standing wave pattern were established experimentally and compared with numerical simulations. Fourier analysis along the propagation direction reveals noticeable frequencies both on the experiment and the computation that could be related not only to the guided mode but also to beating phenomena between the coupled waveguides. Finally, light confinement above the slot is directly visualized with a subwavelength resolution and is compared with the expected field distribution. [ABSTRACT FROM AUTHOR]

Published

2008