Guiding Pure Vector Mode in Hollow Core Fiber Based on a Momentum Selection Theory

The attraction of hollow core fibers (HCF) lies in the long-distance mode retention ability and the transmission speed close to physical limit. Long-term efforts have been made to get a balance between large core and pure mode. However, the unique light guide mechanism of HCFs makes it a difficult q...

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Bibliographic Details
Published in:Journal of lightwave technology 2021-07, Vol.39 (14), p.4776-4783
Main Authors: Guo, Huiyi, Mao, Baiwei, You, Yong, Zhang, Luhe, Chen, Siyu, Wang, Zhi, Liu, Yange
Format: Article
Language:English
Subjects:
fiber communications
Fiber optics
Mechanical properties
Modal choice
Momentum
Nonlinear optics
Optical fiber polarization
Optical fiber sensors
Optical fibers
Optical interferometry
Optical polarization
Optical scattering
Photonic band gaps
photonic bandgap fibers
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Summary:The attraction of hollow core fibers (HCF) lies in the long-distance mode retention ability and the transmission speed close to physical limit. Long-term efforts have been made to get a balance between large core and pure mode. However, the unique light guide mechanism of HCFs makes it a difficult question to decrease the number of the allowed modes. New theory of mode control in such fibers is desired. In this paper, we propose a new space for observing optical states based on the principle of representation transformation, so-called the wave vector space (k-space). The mode observation in the k-space provides a different perspective where the mechanical properties of the light are more obvious. We observe typical fiber modes in the k-space and clarify differences of their momentum characteristics, based on which a mode selection principle is proposed. As a theoretical proof of the principle, a novel 19-cell hollow-core photonic bandgap fiber (HC-PBGF) structure that only supports single pure vector mode is exhibited. The designed optical fiber supports only TE01 mode over a bandwidth of 80 nm with the lowest loss of 0.8 dB/km. This example proves the practicality of the proposed momentum selection theory and will inspire breakthroughs in other optical studies.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2021.3074168