Broadband continuum generation in an irregularly multicore microstructured optical fiber

Peiguang Yan; Yaqing Jia; Hongxin Su; Yigang Li; Lei Ding; Wei Zhang; Kecheng Lv; Tiequn Zhang; Xiaonong Zhu; Qinlin Guo; Guiyao Zhou; Lantian Hou

Journals >Chinese Optics Letters >Volume 3 >Issue 6 >Page 06355 > Article

Chinese Optics Letters
Vol. 3, Issue 6, 06355 (2005)

Broadband continuum generation in an irregularly multicore microstructured optical fiber

Peiguang Yan^1、*, Yaqing Jia², Hongxin Su³, Yigang Li¹, Lei Ding¹, Wei Zhang¹, Kecheng Lv¹, Tiequn Zhang², Xiaonong Zhu², Qinlin Guo³, Guiyao Zhou⁴, and Lantian Hou⁴

Author Affiliations

¹Insititute of Physics, Nankai University, Tianjin 300071

²Institute of Modern Optics, Nankai University, Key Laboratory of Optoelectronic Information Science and Technology, EMC, Tianjin 300071

³Insitute of Physics, Hebei University, Baoding 071002

⁴Infrared Optical Fibers and Sensors Institute, Yanshan University, Qinhuangdao 066004

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Peiguang Yan, Yaqing Jia, Hongxin Su, Yigang Li, Lei Ding, Wei Zhang, Kecheng Lv, Tiequn Zhang, Xiaonong Zhu, Qinlin Guo, Guiyao Zhou, Lantian Hou. Broadband continuum generation in an irregularly multicore microstructured optical fiber[J]. Chinese Optics Letters, 2005, 3(6): 06355 Copy Citation Text

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Abstract

A broadband continuum generation is reported in a novel multicore microstructured optical fiber (MOF) where irregular air holes are randomly distributed in cladding. By launching ultrashort light pulses from a Ti:sapphire laser into a 190-mm-long fiber of this type, we have observed a group of continua generated from different cores, each with distinct color. 20-dB bandwidth of the broadest continuum is 1260 nm with an average power of 143 mW. The result confirms that the multicore MOF can be fabricated, with different dispersion profiles tailored for specific supercontinuum (SC) generation towards practical applications.

Keywords

160.4330 190.4380 190.5650 four-wave mixing 320.7140 nonlinear optical materials nonlinear optics Raman effect ultrafast processes in fibers

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