Optimization of optical properties of toluene-core photonic crystal fibers with circle lattice for supercontinuum generation

Optimization of optical properties of toluene-core photonic crystal fibers with circle lattice for supercontinuum generation

We emphasize the advantage of varying the filling factor d 1 / Λ in the first cladding ring of toluene-core PCFs with circle lattice in enhancing the fiber nonlinearity. The guiding characteristic of the fiber such as the dispersion, nonlinear coefficients, and attenuation of the fundamental mode is...

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Bibliographic Details
Published in:Journal of optics (New Delhi) Vol. 51; no. 3; pp. 678 - 688
Main Authors: Thi, Thuy Nguyen, Trong, Duc Hoang, Le Tran, Bao Tran, Van, Trong Dang, Van, Lanh Chu
Format: Journal Article
Language:English
Published: New Delhi Springer India 01-09-2022
Springer Nature B.V
Subjects:
Crystal fibers
Crystal lattices
Lasers
Lattice parameters
Long fibers
Microscopes
Nonlinearity
Optical Devices
Optical fibers
Optical properties
Optics
Optimization
Photonic crystals
Photonics
Physics
Physics and Astronomy
Research Article
Toluene
Wave propagation
Supercontinuum generation
Toluene-core photonic crystal fibers
All-normal dispersion
The filling factor
The first cladding ring
Anomalous dispersion
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Summary:We emphasize the advantage of varying the filling factor d 1 / Λ in the first cladding ring of toluene-core PCFs with circle lattice in enhancing the fiber nonlinearity. The guiding characteristic of the fiber such as the dispersion, nonlinear coefficients, and attenuation of the fundamental mode is studied numerically. Based on the simulation results, two optimal PCFs are selected and investigated in detail for the spectrally broad supercontinuum (SC) generation with low input energy. The first PCF with a lattice constant ( Λ ) of 1.0 μm and filling factor ( d 1 / Λ ) of 0.7 has the all-normal dispersion in the wavelength range of 0.7–2.0 µm. When the 1-cm-long fiber samples are pumped at 1.064 μm, the generated SC spectra span from the visible to near-infrared regions (0.642–1.592 μm), with the low pulse energy of 0.018 nJ. Meanwhile, the second PCF ( Λ  = 2.5 μm, d 1 / Λ  = 0.3) allows for SC in the anomalous dispersion regime in the range 0.911–2.496 µm with pulse energy of 0.05 nJ when the pulse has a central wavelength of 1.55 µm propagating within 10 cm of the fiber samples. The proposed design could be a new class of microstructure optical fiber for the broad spectrum SC generation.
ISSN:0972-8821
0974-6900
DOI:10.1007/s12596-021-00802-y