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Sous-projet phare "Optique à petit nombre de photons"
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1. Quantum and spin-based nanoelectronics (Frédéric NGUYEN VAN DAU)
2. Nano-drugs for severe diseases (Patrick COUVREUR)
3. Nanophotonics : Nano-objects for energy control (Jean-Jacques GREFFET)
Bureau = Jean-Jacques GREFFET + Keitaro NAKATANI - 3 animateurs sous-projets
3.1 Few photon optics (Paul VOISIN)
3.1.1 Ultimate non-linearities (Sébastien SAUVAGE)
+ Alfredo DEROSSI - Sylvain COMBRIÉ
+ Alberto AMO - Loïc LANCO - Jacqueline BLOCH
+ Emanuelle DELEPORTE
+ Philippe BOUCAUD - Xavier CHECOURY - Moustafa EL KURDI
3.1.2 Nanosources (Jean-Pierre HERMIER)
+ Thierry GACOIN - Philippe BERGONZO - François TREUSSART
+ Pascale SENELLART
+ Jean-Sébastien LAURET, Annick LOISEAU
3.1.3 Nanowires(Jean-Christophe HARMAND)
+ Jean-Christophe HARMAND - Maria TCHERNYCHEVA - Gilles PATRIARCHE
+ Mathieu KOCIAK - Frank GLAS - Paul VOISIN - Abderrahim RAMDANE
+ Pere ROCA I CABARROCAS
3.2 Nano-object optical manipulation (Fabrice CHARRA)
3.2.1 Volume object displacement (Céline FIORINI)
+ C. REYNAUD - Serge PALACIN - Anne DÉBARRE
3.2.2 Guided nano-objects on a substrate (Robert KUSZELEWICZ)
+ Ariel LEVENSON - Jacques PERETTI - A. BLEUZEN
3.2.3 Single molecule displacement (Gérald DUJARDIN)
+ Keitaro NAKATANI - Fabrice CHARRA
3.3 Plasmonics (Riad HAIDAR)
3.3.1 Quantum plasmonics (F. MARQUIER)
+ Philippe LALANNE - Jacques GIERAK
3.3.2 Plasmon generation and amplitication (Raffaele COLOMBELLI)
+ A. BOUSSEKSOU - Laurent VIVIEN - Nicolas IZARD - Henri BENISTY - Raffaele COLOMBELLI
3.3.3 Plasmonic resonators (Stéphane COLLIN, Odile STEPHAN)
+ Riad HAIDAR - M. CANVA
+ André DE LUSTRAC - Aloyse DEGIRON - Anatole LUPU
+ Jean-Jacques GREFFET
alfredo.derossi[arobas]thalesgroup.com
sylvain.combrie[arobas]thalesgroup.com
alberto.amo[arobas]lpn.cnrs.fr
loic.lanco[arobas]lpn.cnrs.fr
jacqueline.bloch[arobas]lpn.cnrs.fr
emmanuelle.deleporte[arobas]lpqm.ens-cachan.fr
philippe.boucaud[arobas]ief.u-psud.fr
xavier.checoury[arobas]ief.u-psud.fr
moustafa.el-kurdi[arobas]ief.u-psud.fr
sebastien.sauvage[arobas]ief.u-psud.fr (responsable sous-sous-projet + comité valo)
À venir.
jean-pierre.hermier[arobas]uvsq.fr
thierry.gacoin[arobas]polytechnique.edu
philippe.bergonzo[arobas]cea.fr
francois.treussart[arobas]ens-cachan.fr
pascale.senellart[arobas]lpn.cnrs.fr
lauret[arobas]lpqm.ens-cachan.fr
Annick.Loiseau[arobas]onera.fr
The project conjugates a substantial effort on crystal growth and characterization of semiconductor nanowires and activities to develop nanowire-based photonic devices.
A short-term objective is the demonstration of a single photon emitter formed by a quantum dot inserted in a nanowire, with size and morphology optimized for efficient light extraction.
Another important activity is to grow III-V nanowires on Si and thus realize the integration of optically active materials of excellent quality on Si platforms. One particular objective is to couple a nanowire array to a SOI planar waveguide and to demonstrate efficient optical functions on this substrate.
We will also aim at developing low-cost and high efficiency solar cells based on nanowires. The use of nanowire arrays has several potential advanges: their light trapping capability, their possible integration on cheap substrate (including amorphous substrates, glass for instance), a significant reduction of the active material quantity .
Nanowire-based biological sensors represent another application to be investigated.
frank.glas[arobas]lpn.cnrs.fr
jean-christophe.harmand[arobas]lpn.cnrs.fr
mathieu.kociak[arobas]u-psud.fr
gilles.patriarche[arobas]lpn.cnrs.fr
abderrahim.ramdane[arobas]lpn.cnrs.fr
pere.roca[arobas]polytechnique.edu
maria.tchernycheva[arobas]u-psud.fr
paul.voisin[arobas]lpn.cnrs.fr
Webmestre :
sebastien.sauvage[a]ief.u-psud.fr
Dernière mise à jour :
29-mar-13 19:10