ANALYSIS EFFECTIVE MODE AREA OF SOLID-CORE PCFS WITH HEXAGONAL LATTICE INFILTRATED WITH METHANOL FOR OPTICAL FIBER TECHNOLOGY
Authors: Lanh Chu Van
Advances in Applied and Engineering Physics
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Publishing year: 11/2020
In this paper, we analyzed the effective mode area of solid-core fused silica
photonic crystal fiber (PCF) with hexagonal cladding and infiltrated with methanol. We
have determined that the largest effective mode area is 367.9970 μm2 when the air hole
diameter is 1 μm and that the smallest effective mode area is 21.1393 μm2 when the air
hole diameter is 4 μm. We have compared these results with a previous publication, and
our results give important insights into the PCFs’ optical fiber technology applications.
Photonic crystal fibers, dispersion, nonlinear optics, supercontinuum generation.