Title :
Er-doped glass ridge-waveguide amplifiers fabricated with a collimated sputter deposition technique
Author :
Cheng Chung Li ; Hong Koo Kim ; Migliuolo, M.
Author_Institution :
Dept. of Electr. Eng., Pittsburgh Univ., PA, USA
Abstract :
We report a new fabrication process for Er-doped glass ridge waveguides. The process does not require etching of an Er-doped film in defining the lateral dimension of a waveguide, but involves a liftoff process using polyimide as a sacrificial layer. An Er-doped soda-lime silicate glass film (1.5 μm thick) was deposited at 350/spl deg/C using a collimated sputtering technique. Conventional sputtering techniques have been known to be incompatible with a liftoff process. The collimated sputtering, however, allowed us easy liftoff of Er-doped films, and produced well-defined ridges with smooth surface profiles. A 1.7-cm-long waveguide thus fabricated shows a 1.55-μm signal enhancement of 15.4 dB with a 980-nm pump power of 40 mW. This enhancement fully compensates for both Er absorption and waveguide losses, and results in a gain of 7.2 dB.
Keywords :
erbium; light absorption; optical fabrication; optical glass; optical losses; optical pumping; ridge waveguides; solid lasers; sputter deposition; waveguide lasers; 1.5 mum; 1.55 mum; 1.7 cm; 350 degC; 40 mW; 7.2 dB; 980 nm; Er absorption; Er-doped glass ridge-waveguide amplifiers; Er-doped soda-lime silicate glass film; Na/sub 2/O-CaO-SiO/sub 2/:Er; collimated sputter deposition technique; fabrication process; liftoff process; polyimide sacrificial layer; pump power; signal enhancement; smooth surface profiles; waveguide losses; well-defined ridges; Collimators; Erbium; Etching; Glass; Optical device fabrication; Optical devices; Optical films; Optical waveguides; Polyimides; Sputtering;
Journal_Title :
Photonics Technology Letters, IEEE
