Title :
Hybrid photonic-plasmonic microcavities for Q/V ratio enhancement
Author :
Ciminelli, C. ; Dell´Olio, F. ; Conteduca, D. ; Krauss, Thomas F. ; Armenise, M.N.
Author_Institution :
Optoelectron. Lab., Politec. di Bari, Bari, Italy
Abstract :
A novel photonic-plasmonic device with a 1D PhC dielectric cavity vertically coupled to a metal slot has been discussed. The device performance has been compared with the state-of the-art of micro-cavities, demonstrating a remarkable improvement of Q/V (= 107 (λ/n)-3) with respect to results reported in literature. A strong lightmatter interaction has been observed, making the cavity suitable for optical trapping, particularly. Strong optical forces, high stiffness and stability of the optical traps are expected in the slotted structure due to the ultra-high Q/V of the properly designed hybrid cavity, allowing the trapping of atoms and nanoparticles, such as proteins and DNA sections, and making the device suitable for interesting applications in oncology and proteomics.
Keywords :
DNA; microcavities; nanoparticles; photonic crystals; plasmonics; proteins; radiation pressure; 1D PhC dielectric cavity; DNA; Q/V ratio enhancement; atom trapping; hybrid photonic-plasmonic microcavities; light-matter interaction; metal slot; nanoparticles; optical trapping; proteins; Biomedical optical imaging; Cavity resonators; Dielectrics; Integrated optics; Metals; Optical resonators; Photonics; high Q/V; hybrid cavity; optical trapping;
Conference_Titel :
Transparent Optical Networks (ICTON), 2014 16th International Conference on
Conference_Location :
Graz
DOI :
10.1109/ICTON.2014.6876402
