par Losada, J.;Raza, Ali;Clemmen, Stéphane ;Serrano, A.;Griol, A.;Baets, R.;Martínez, A.
Référence IEEE journal of selected topics in quantum electronics, 25, 3, page (1-6)
Publication Publié, 2019-05
Article révisé par les pairs
Titre:
  • SERS Detection via Individual Bowtie Nanoantennas Integrated in Si3N4 Waveguides
Auteur:Losada, J.; Raza, Ali; Clemmen, Stéphane; Serrano, A.; Griol, A.; Baets, R.; Martínez, A.
Informations sur la publication:IEEE journal of selected topics in quantum electronics, 25, 3, page (1-6)
Statut de publication:Publié, 2019-05
Sujet CREF:Optique
Spectroscopie [état condense]
Mots-clés:bow-tie antennas, bowtie nanoantennas, broadband enhanced light-matter interaction, dielectric waveguides, elemental semiconductors, Gold, integrated optics, integrated optoelectronics, isolated plasmonic nanoantenna, lab-on-a-chip, lab-on-a-chip applications, massive integration, metallic nanostructures, metamaterial antennas, molecular monolayers, monolayers, nanophotonics, Nanophotonics, nanosensors, optical sensors, Optical surface waves, optical waveguides, Optical waveguides, photonic integrated circuits, physical phenomena, plasmonic resonances, plasmonics, plasmons, Plasmons, power consumption, Raman scattering, SERS detection, SERS devices, Si3N4-Si, silicon, Silicon, silicon chips, silicon compounds, silicon nitride waveguide, silicon photonics, subwavelength gap, subwavelength regions, surface enhanced Raman scattering, surface-enhanced Raman scattering spectra, Waveguide discontinuities
Langue:Anglais
Identificateurs:urn:issn:1077-260X
info:doi/10.1109/JSTQE.2019.2896200