Add to ORKGPhotonic crystals (PCs) have proven to be an efficient way to tightly confine the electromagnetic field in nanocavities or slow down light propagation within optical waveguides. Very recently it has been proposed to use a nanometric optical probe to observe in near-field the light confinement and propagation within PC devices. In this work we analyze the optical properties of PC nanostructures by using a SNOM probe in collection mode in association with transmission measurements. We also explore the possibility to use the nanometric tip for a new class of Near-field Optics Nanometric Silicon Systems (NONSS) dedicated to on-chip information rout...
Nanotechnology enables in principle a precise mapping from design to device but relied so far on hum...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
Near-field scanning optical microscopy (NSOM) was used to observe high-resolution images of planar p...
Photonic crystals (PCs) have proven to be an efficient way to tightly confin...
By confining photons to small volumes for long periods of time, optical nanocavities offer the abili...
International audienceThe optical near field of a high-Q and ultrasmall volume photonic crystal nano...
The increasing density of data transmission, speed of all- optical signal processing, and demand for...
We discuss experimental studies of the interaction between a nanoscopic object and a photonic cryst...
International audienceA scanning near-field spectroscopy method is used to observe loss reduction an...
Near-field scanning optical microscopy was used to observe high-resolution images of confined modes ...
We discuss recent progress and the exciting potential of scanning probe microscopy methods for the c...
With the improvement of fabrication techniques, the nanophotonics and more especially the photonics ...
In order to model transmission scanning near-field optical microscopy (T-SNOM) experiments, we study...
We describe the application of scanning near-field optical microscopy (SNOM) for the high-resolution...
Photonic structures are realized in order to control the flow of light. Observation of the light dis...
Nanotechnology enables in principle a precise mapping from design to device but relied so far on hum...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
Near-field scanning optical microscopy (NSOM) was used to observe high-resolution images of planar p...
Photonic crystals (PCs) have proven to be an efficient way to tightly confin...
By confining photons to small volumes for long periods of time, optical nanocavities offer the abili...
International audienceThe optical near field of a high-Q and ultrasmall volume photonic crystal nano...
The increasing density of data transmission, speed of all- optical signal processing, and demand for...
We discuss experimental studies of the interaction between a nanoscopic object and a photonic cryst...
International audienceA scanning near-field spectroscopy method is used to observe loss reduction an...
Near-field scanning optical microscopy was used to observe high-resolution images of confined modes ...
We discuss recent progress and the exciting potential of scanning probe microscopy methods for the c...
With the improvement of fabrication techniques, the nanophotonics and more especially the photonics ...
In order to model transmission scanning near-field optical microscopy (T-SNOM) experiments, we study...
We describe the application of scanning near-field optical microscopy (SNOM) for the high-resolution...
Photonic structures are realized in order to control the flow of light. Observation of the light dis...
Nanotechnology enables in principle a precise mapping from design to device but relied so far on hum...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
Near-field scanning optical microscopy (NSOM) was used to observe high-resolution images of planar p...