The aim of this lecture is to highlight some advances in erbium-activated silica-based photonic systems, where suitable geometries and appropriate fabrication protocols allow tailoring and enhancement of optical and spectroscopic properties. In particular, the following topics are presented: (i) rare earth-activated glass ceramics planar waveguides; (ii) Er 3+-activated Ag exchanged silicate glass; (iii) dielectric 1-D planar microcavities; (iv) sol-gel-derived Er3+-activated dielectric spheres.
Nanocomposite photonic glasses, waveguiding glass ceramics and confined structures tailoring Er3+ spectroscopic properties
Chiappini A;Chiasera A;Ferrari M;Nunzi Conti G;Pelli S;Righini;
2007
Abstract
The aim of this lecture is to highlight some advances in erbium-activated silica-based photonic systems, where suitable geometries and appropriate fabrication protocols allow tailoring and enhancement of optical and spectroscopic properties. In particular, the following topics are presented: (i) rare earth-activated glass ceramics planar waveguides; (ii) Er 3+-activated Ag exchanged silicate glass; (iii) dielectric 1-D planar microcavities; (iv) sol-gel-derived Er3+-activated dielectric spheres.File in questo prodotto:
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