Title :
Fluidic Assembly of Optical Components
Author :
Avital, Alon ; Zussman, Eyal
Author_Institution :
Dept. of Mech. Eng., Technion- Israel Inst. of Technol., Haifa
Abstract :
A self-assembly technique is used to match microscopic components in a desired configuration with a high degree of precision. The basis of this self-assembly technique is capillary forces that are used to assemble the micro components. A liquid solder provides the capillary forces by wetting a 3-D cavity in each of the parts to be assembled. An advantage of the proposed design is that the high degree of precision of the mating feature relative to the optical guides ensures a high degree of concentricity of the optical path in the device. The application presented is the self-assembly of arrays of single-mode optical fibers onto an optical chip for use in optical switches or tunable filters. Optical measurements revealed an insertion loss of less than 0.85 dB, which demonstrates misalignment in the order of 1 mum
Keywords :
integrated optics; micro-optics; microassembling; microfluidics; optical fibres; optical filters; optical switches; self-assembly; solders; 3D cavity; capillary forces; fluidic assembly; insertion loss; liquid solder; microscopic components; optical chip; optical components; optical guides; optical measurements; optical switches; self-assembly technique; single-mode optical fibers; tunable filters; Assembly; Microscopy; Optical arrays; Optical design; Optical devices; Optical fiber filters; Optical fibers; Optical filters; Optical switches; Self-assembly; Fluidic self-assembly; microassembly; optical chips;
Journal_Title :
Advanced Packaging, IEEE Transactions on
DOI :
10.1109/TADVP.2006.884810
