IFIR   05409
INSTITUTO DE FISICA DE ROSARIO
Unidad Ejecutora - UE
artículos
Título:
(Ag0/Au0,Er3+)-Doped PLZT Wave-Guides prepared by chemical solution deposition
Autor/es:
MARIA VIRGINIA RONDÁN; NORA PELLEGRI; AGUSTÍN FRATTINI; OSCAR DE SANCTIS
Revista:
FERROELECTRICS
Editorial:
Taylor & Francis
Referencias:
Año: 2006 vol. 338 p. 127 - 136
ISSN:
0015-0193
Resumen:
The 9/65/35 PLZT is a highly optical transparent material throughout the visible spectrum and its films are good candidates for wave-guides. On the other hand, Er3+- doped wave-guides are fabricated for integrated optic amplifiers, but the increase of Er concentration has a cut-off due to the strengthening of the ion-ion interaction. In this work, (Ag0/Au0, Er3+)-doped (Pb0.91La0.09)(Zr0.65Ti0.35)O3 films to produce planar wave-guides have been prepared by CSD processing on silica glass. The aim is to reinforce the fluorescence intensity by a resonant phenomenon between Er3+ and Ag0 or Au0 nanoparticles, and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. have been prepared by CSD processing on silica glass. The aim is to reinforce the fluorescence intensity by a resonant phenomenon between Er3+ and Ag0 or Au0 nanoparticles, and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. wave-guides are fabricated for integrated optic amplifiers, but the increase of Er concentration has a cut-off due to the strengthening of the ion-ion interaction. In this work, (Ag0/Au0, Er3+)-doped (Pb0.91La0.09)(Zr0.65Ti0.35)O3 films to produce planar wave-guides have been prepared by CSD processing on silica glass. The aim is to reinforce the fluorescence intensity by a resonant phenomenon between Er3+ and Ag0 or Au0 nanoparticles, and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. have been prepared by CSD processing on silica glass. The aim is to reinforce the fluorescence intensity by a resonant phenomenon between Er3+ and Ag0 or Au0 nanoparticles, and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. 3+- doped wave-guides are fabricated for integrated optic amplifiers, but the increase of Er concentration has a cut-off due to the strengthening of the ion-ion interaction. In this work, (Ag0/Au0, Er3+)-doped (Pb0.91La0.09)(Zr0.65Ti0.35)O3 films to produce planar wave-guides have been prepared by CSD processing on silica glass. The aim is to reinforce the fluorescence intensity by a resonant phenomenon between Er3+ and Ag0 or Au0 nanoparticles, and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. have been prepared by CSD processing on silica glass. The aim is to reinforce the fluorescence intensity by a resonant phenomenon between Er3+ and Ag0 or Au0 nanoparticles, and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. 0/Au0, Er3+)-doped (Pb0.91La0.09)(Zr0.65Ti0.35)O3 films to produce planar wave-guides have been prepared by CSD processing on silica glass. The aim is to reinforce the fluorescence intensity by a resonant phenomenon between Er3+ and Ag0 or Au0 nanoparticles, and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. 3+ and Ag0 or Au0 nanoparticles, and the dielectric effect of the matrix. This material is compared with other (Metal, Er3+) doped films. doped films. 3+) doped films. Keywords PLZT; nano-composite films; wave-guidesPLZT; nano-composite films; wave-guides