Modal characteristics of a novel multicore optical fiber

LI Juan; YANG Lin; ZHAO Chu-jun; WEN Shuang-chun; FAN Dian-yuan

doi:10.3969/j.issn.1001-3806.2009.05.015

In order to achieve high-power and high-brightness fiber laser beams,based on the strong coupling mechanism of evanescent field,the modal field characteristics of multicore fibers,including a bundle of multiple micro/nano fibers or a bundle of multiple micro/nano fibers and large core fibers,were numerically simulated and theoretically analyzed with finite difference time domain(FDTD)method.The result shows that good coupling among the fibers can be obtained in a micro/nano fiber array and that the modal field is flattened by the micro/nano fibers in the bundle of multiple micro/nano fibers and large core fibers.The result is useful to further development of high-power lasers and amplifiers.

Modal characteristics of a novel multicore optical fiber

Corresponding author: WEN Shuang-chun, scwen@hnu.cn;

1. Key Laboratory of Miero/Nano Optoelectronic Devices of Ministry of Education, School of Computer and Communication, HunanUniversity, Changsha 410082, China

Received Date: 2008-11-08

Accepted Date: 2008-12-15

Available Online: 2009-10-25

Abstract: In order to achieve high-power and high-brightness fiber laser beams,based on the strong coupling mechanism of evanescent field,the modal field characteristics of multicore fibers,including a bundle of multiple micro/nano fibers or a bundle of multiple micro/nano fibers and large core fibers,were numerically simulated and theoretically analyzed with finite difference time domain(FDTD)method.The result shows that good coupling among the fibers can be obtained in a micro/nano fiber array and that the modal field is flattened by the micro/nano fibers in the bundle of multiple micro/nano fibers and large core fibers.The result is useful to further development of high-power lasers and amplifiers.

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Reference (12)

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Modal characteristics of a novel multicore optical fiber

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