Mode Matching and Coupling of Lensed and Cleaved Fibers Employing Near-Field Technique

An experimental coupling mechanism is presented that demonstrates efficient coupling between a high-power 980-nm laser diode and a lensed fiber by employing mode (spot size and wavefront) matching in the near-field regime. The results show that the beam spot pattern of the lensed fiber of a horizont...

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Bibliographic Details
Published in:IEEE photonics technology letters 2016-02, Vol.28 (4), p.465-468
Main Authors: Hsieh, Wen-Hsuan, Liu, Chun-Nien, Tsai, Ying-Chien, Hsu, Yi-Cheng, Huang, Yi-Chung, Sheen, Maw-Tyan, Yang, Shu-Yun, Yu, Chin-Ping, Yeh, Pochi, Cheng, Wood-Hi
Format: Article
Language:English
Subjects:
Beams (radiation)
Coupling
Couplings
Diode lasers
Fibers
Laser beams
Lasers
Matching
Measurement by laser beam
mode matching
near-field measurement
Optical fiber couplers
Optical fiber theory
Phase measurement
spot size
Spots
Wave fronts
wavefront
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Summary:An experimental coupling mechanism is presented that demonstrates efficient coupling between a high-power 980-nm laser diode and a lensed fiber by employing mode (spot size and wavefront) matching in the near-field regime. The results show that the beam spot pattern of the lensed fiber of a horizontally elliptical shape is spot-size matched to the laser. The wavefront of the lensed fiber with a minor radius of curvature ranging from -9 to 10 μm exhibits a curve wave that is also phase matched to the laser. This indicates that the similarity in the mode patterns of both the spot size and the wavefront between lensed fiber and laser is responsible for mode-matched beam coupling, leading to a coupling efficiency of more than 80%. In contrast to the lensed fiber, the spot-size of the cleaved fiber is round, and the wavefront is a plane wave. The different mode distributions between the laser and the cleaved fiber lead to a mode mismatch, resulting in a coupling efficiency of lower than 40%. This experimental coupling mechanism investigation in the near-field regime provides useful information for practical micro-optic design with better mode matching to achieve efficient coupling from active to passive components for interconnect applications.
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2015.2499315