Title :
Supermodes Analysis for Linear-Core-Array Microstructured Fiber
Author :
Guan, Chunying ; Yuan, Libo ; Dai, Qiang ; Tian, Fengjun
Author_Institution :
Photonics Res. Center, Harbin Eng. Univ., Harbin
fDate :
6/1/2009 12:00:00 AM
Abstract :
Linear-core-array microstructured fibers are fabricated using the modified chemical-vapor deposition (MCVD) for preparing each core performs, and two D-shape large-scale silica rods are also used in the linear-core-array fiber perform stacking. The supermodes in optical fibers with linearly distributed 23 cores are presented by using coupled-mode theory. The coupling coefficients between two adjacent cores are estimated based on the weak guidance approximation. The near- and far-field distributions of supermodes supported by the multicore fiber (MCF) are presented. A Talbot cavity is exploited to select wanted supermodes. The calculated results show that the in-phase supermode can dominate the output. The coupling field propagation characteristics of the optical fibers are also analyzed.
Keywords :
Talbot effect; chemical vapour deposition; coupled mode analysis; optical fibre fabrication; silicon compounds; D-shape large-scale silica rods; Talbot cavity; coupled-mode theory; coupling coefficients; coupling field propagation characteristics; far-field distribution; linear-core-array fiber perform stacking; linear-core-array structured fiber; modified chemical-vapor deposition; multicore fiber; near-field distribution; optical fibers; supermode analysis; weak guidance approximation; Fiber; laser arrays; lasers; microstructured fibers;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2009.2022483
