Title :
Influence of Cladding Thickness on Transmission Loss and its Relationship With Multicore Fiber Structure
Author :
Goto, Yukihiro ; Nakajima, Kazuhide ; Matsui, Takashi ; Kurashima, Toshio ; Yamamoto, Fumihiko
Author_Institution :
Access Network Service Syst. Labs., NTT Corp., Tsukuba, Japan
Abstract :
To clarify the requirements as regards the geometry of multicore fiber, we examined its minimum cladding thickness and maximum cladding diameter experimentally. We studied the relationship between cladding thickness and transmission loss for an eccentric core structure and revealed that the cladding thickness is mainly limited by confinement loss. We also confirmed that the dynamic fatigue corrosion of the optical fiber exhibits no clear dependence on coating thickness or cladding diameter. We discussed the relationship between the effective core area and the core multiplicity factor by considering several arrangements. We showed that optimizing the relationship between core arrangement and effective core area can maximize the core multiplicity factor.
Keywords :
optical fibre cladding; optical fibre losses; cladding diameter; cladding thickness; coating thickness; confinement loss; core area; core multiplicity factor; dynamic fatigue corrosion; eccentric core structure; multicore fiber geometry; multicore fiber structure; optical fiber; transmission loss; Loss measurement; Multicore processing; Optical fiber cables; Optical fiber testing; Optical fibers; Propagation losses; Structural rings; Cladding diameter; Cladding thickness; Confinement loss; Macro bending loss; Micro bending loss; Multicore fiber; Optical fiber;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2015.2493372
