Title :
Reverse proton exchange for frequency doubling in lithium niobate waveguides
Author :
Cino, A.C. ; Parisi, A. ; Bonura, S. ; Sanseverino, S. Riva ; Amoroso, A. ; Falco, A. Di ; Leo, G. ; Assanto, G. ; Gringoli, F. ; De Angelis, C.
Author_Institution :
Center for Electron. Res. in Sicily, Monreale, Italy
Abstract :
Reverse proton exchange is a promising technique for the fabrication of nonlinear waveguides in unpoled lithium niobate (LN). We have investigated nonlinear processes in these waveguides for the frequency doubling of near infrared light at 1319 nm. After summarizing the technological processes adopted for the fabrication of planar and channel structures in z-cut LN, we report the preliminary experimental results obtained in planar waveguides, along with numerical simulations in both one- and two-dimensional geometries.
Keywords :
ion exchange; lithium compounds; optical fabrication; optical harmonic generation; optical planar waveguides; optical waveguides; 1319 nm; LiNbO3; channel structures; fabrication; frequency doubling; lithium niobate waveguides; near infrared light; numerical simulations; one-dimensional geometries; planar structures; reverse proton exchange; technological processes; two-dimensional geometries; unpoled lithium niobate; z-cut LN; Frequency; Lithium niobate; Optical device fabrication; Optical films; Optical harmonic generation; Optical planar waveguides; Optical surface waves; Optical waveguides; Planar waveguides; Protons;
Conference_Titel :
Fibre and Optical Passive Components, 2002. Proceedings of 2002 IEEE/LEOS Workshop on
Print_ISBN :
0-7803-7556-4
DOI :
10.1109/FOPC.2002.1015803
