Detailed investigation of self-imaging in largecore multimode optical fibers for application in fiber lasers and amplifiers

Xiushan Zhu, A. Schülzgen, H. Li, L. Li, L. Han, Jerome V Moloney, Nasser N Peyghambarian

Research output: Contribution to journalArticle

48 Scopus citations


Properties of the self-imaging effect based on multimode interference (MMI) in large-core passive optical fibers are investigated and analyzed in detail, with the purpose of using multimode active fibers for high power single-transverse-mode emission. Although perfect self-imaging of the input field from a standard single-mode fiber (SMF-28) in a multimode fiber becomes practically impossible as its core diameter is larger than 50 μm, a quasi-reproduction of the input field occurs when the phase difference between the excited modes and the peak mode inside the multimode fiber is very small. Our simulation and experimental results indicate that, if the length of the multimode fiber segment can be controlled accurately, reproduction of the input field with a self-imaging quality factor larger than 0.9 can be obtained. In this case, a low-loss hybrid fiber cavity composed of a SMF-28 segment and a very-large-core active multimode fiber segment can be built. It is also found that for the hybrid fiber cavity, increasing the mode-field diameter of the single-mode fiber improves both the self-imaging quality and the tolerance on the required length accuracy of the multimode fiber segment. Moreover, in this paper key parameters for the design of MMI-based fiber devices are defined and their corresponding values are provided for multimode fibers with core diameters of 50 μm and 105 μm.

Original languageEnglish (US)
Pages (from-to)16632-16645
Number of pages14
JournalOptics Express
Issue number21
Publication statusPublished - Oct 13 2008


ASJC Scopus subject areas

  • Atomic and Molecular Physics, and Optics

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