Title :
Highly scalable 2-D fiber collimator array based on an array of through-holes in silicon
Author_Institution :
Dept. of Electron. Eng., Kwangwoon Univ., Seoul, South Korea
Abstract :
A highly scalable 4×4 fiber collimator array with long collimation length has been fabricated by utilizing a two-dimensional array of precision-controlled through-holes in silicon. A fiber array and a lens array were prepared by precisely positioning corresponding fibers and lenses utilizing the holes in separate silicon substrates, and the two arrays were integrated to implement the collimator array. The achieved average angular pointing accuracy and positioning accuracy of the collimator array were about 0.1/spl deg/ and better than 2 μm, respectively. At a distance of 10 cm from the collimator, the measured collimated beam size was 400 μm with its full divergence angle of 0.18/spl deg/.
Keywords :
elemental semiconductors; lenses; optical arrays; optical collimators; optical control; optical fabrication; optical fibres; optical switches; position control; silicon; 10 cm; 400 micron; GRIN rod lens array; SELFOC GRIN rod lenses; Si; average angular pointing accuracy; collimated beam size; fiber array; full divergence angle; highly scalable 2-D fiber collimator array; lens array; long collimation length; positioning accuracy; precise positioning; precision-controlled through-holes; silicon substrates; two-dimensional array; Lenses; Optical arrays; Optical collimators; Optical fiber communication; Optical fibers; Optical switches; Scalability; Silicon; Stacking; Two dimensional displays;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2003.818637
