Enhanced light emission from Carbon Nanotubes integrated in silicon micro-resonator Auteur(s): Noury A., Roux Xavier Le, Vivien Laurent, Izard N. (Article) Publié: Nanotechnology, vol. 26 p.345201 (2015) Texte intégral en Openaccess : Ref HAL: hal-01207099_v1 Ref Arxiv: 1508.01004 DOI: 10.1088/0957-4484/26/34/345201 WoS: 000359079500008 Ref. & Cit.: NASA ADS Exporter : BibTex | endNote 19 Citations Résumé: Single-wall carbon nanotube are considered a fascinating nanomaterial for photonic applications and are especially promising for efficient light emitter in the telecommunication wavelength range. Furthermore, their hybrid integration with silicon photonic structures makes them an ideal platform to explore the carbon nanotube instrinsic properties. Here we report on the strong photoluminescence enhancement from carbon nanotubes integrated in silicon ring resonator circuit under two pumping configurations: surface-illuminated pumping at 735 nm and collinear pumping at 1.26 {\mu}m. Extremely efficient rejection of the non-resonant photoluminescence was obtained. In the collinear approach, an emission efficiency enhancement by a factor of 26 has been demonstrated in comparison with classical pumping scheme. This demonstration pave the way for the development of integrated light source in silicon based on carbon nanotubes. Commentaires: . Réf Journal: Nanotechnology 26 345201 (2015) |