Title :
Secondary Ion Mass Spectrometry Study of Erbium Titanium Codiffusion in Lithium Niobate
Author :
de Almeida, Jose Manuel Marques Martins ; Marinho, Francisco ; Alexandre, Daniel ; Sada, Cinzia
Author_Institution :
Dept. of Phys., Univ. of Tras-os-Montes e Alto Douro, Vila Real, Portugal
Abstract :
A study on the influence of titanium on the diffusion kinetics of erbium in lithium niobate is presented. An empirical linear relation between the diffusion coefficient of erbium and the initial film thickness of titanium was obtained from secondary ion mass spectrometry data. An improvement in the diffusion coefficient by a factor of two was measured for a 200-nm titanium film. Furthermore, the erbium and titanium codiffusion process not only enhances the diffusion of erbium, leading to smaller diffusion time, but also improves the device visibility for further fabrication procedures. This letter is envisioned to clarify in a quantitative way the process of simultaneous codiffusion of erbium and titanium ions into lithium niobate, which has been studied by several authors; nevertheless, no definitive conclusion can be found in the literature.
Keywords :
doping; erbium; lithium compounds; optical fabrication; optical films; optical materials; secondary ion mass spectra; titanium; LiNbO3:(Er,Ti); device visibility; diffusion coefficient; diffusion kinetics; diffusion time; empirical linear relation; erbium ion codiffusion; erbium titanium codiffusion; fabrication procedures; initial titanium film thickness; lithium niobate; secondary ion mass spectrometry data; secondary ion mass spectrometry study; simultaneous codiffusion; size 200 nm; titanium ion codiffusion; Doping; Erbium; Films; Lithium niobate; Optical waveguides; Stimulated emission; Waveguide lasers; Er:LiNbO 3 diffusion doping; Er:Ti:LiNbO3 co-doping; SIMS of LiNbO3;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2014.2322500
