Title :
Ge-laminated polarizer for 790-850-nm applications with extinction ratios larger than 50 dB and insertion losses below 0.4 dB
Author :
Takahashi, Hiroki ; Nagata, Hidefumi ; Shiroishi, Masaru ; Tamai, Masumi ; Kataoka, Haruki
Author_Institution :
Central Res. Lab., Sumitomo Cement Co. Ltd., Chiba, Japan
fDate :
12/1/1993 12:00:00 AM
Abstract :
A laminated structure composed of alternating layers of Ge and SiO 2 (Ge-LAMIPOL) is usable as a miniaturized polarizer at 790-850 nm in fiber optic gyroscopes, for instance. However, peeling of the sputter deposited layers, due to the weak binding strength between Ge and SiO2, is a serious problem during the slicing process in preparation for assembly in the fiber. In order to improve the adhesive strength, the 1-nm-thick Si layers are inserted between Ge and SiO2 layers. The Si layer functions as the adhesive layer via the Si-O bonding formation in place of the weaker Ge-O bond. The new Ge-LAMIPOL, including 125 layers of (1-nm Si)/(4.5-nm Ge)/(1-nm Si)/ (800-nm SiO2) is successfully prepared without any fracture. The extinction ratio and the insertion loss were 51 and 0.33 dB at 850 nm, respectively, corresponding to 59.6 and 0.36 dB as the designed values
Keywords :
adhesion; elemental semiconductors; germanium; laminates; light absorption; optical films; optical losses; optical polarisers; optical workshop techniques; silicon; silicon compounds; sputtered coatings; 0.4 dB; 790 to 850 nm; Ge-O bond; Ge-Si-SiO2; Ge/Si/SiO2 laminated polarizer; Si layer; Si-O bonding formation; adhesive layer; adhesive strength; alternating layers; assembly; binding strength; extinction ratios; fiber optic gyroscopes; insertion losses; laminated structure; peeling; preparation; slicing process; sputter deposited layers; Adhesive strength; Bonding; Extinction coefficients; Extinction ratio; Insertion loss; Nonhomogeneous media; Optical fiber polarization; Optical fibers; Optical films; Sputtering;
Journal_Title :
Lightwave Technology, Journal of
