Numerical Simulation of the CS<sub>2</sub>-Filled Active Fiber With Flattened All-Normal Dispersion

Numerical Simulation of the CS<sub>2</sub>-Filled Active Fiber With Flattened All-Normal Dispersion

A CS<sub>2</sub>-filled Er-doped fiber, which can provide high nonlinearity and gain, low and flat all-normal dispersion profile, low loss and single-mode operation in the wavelength range of 1500&#x2013;2500 nm, is proposed and analyzed by numerical simulation. When the 1900-nm 0.1-...

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Bibliographic Details
Main Authors: ChunCan Wang, CaiPing Jia, JianFang Yang, MuGuang Wang, JingJing Zheng, Li Pei
Format: Article
Language:English
Published: IEEE 2021-01-01
Series:IEEE Photonics Journal
Subjects:
Fiber nonlinear optics
supercontinuum generation
fiber lasers
Online Access:https://ieeexplore.ieee.org/document/9294127/
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Summary:A CS<sub>2</sub>-filled Er-doped fiber, which can provide high nonlinearity and gain, low and flat all-normal dispersion profile, low loss and single-mode operation in the wavelength range of 1500&#x2013;2500 nm, is proposed and analyzed by numerical simulation. When the 1900-nm 0.1-ps initial pulse with a peak power of 30 kW is injected into the active fiber, the generated supercontinuum (SC) spectrum has a double-hump structure in the 1550-nm window and covers about 800-nm wavelength range spanning from 1400 to 2200 nm at &#x2212;20 dB level. Furthermore, the 1550-nm pulse can be obtained synchronously with the 1900-nm initial pulse when the amplified pulse with a temporal double-peak shape is passed through a band-pass filter with its center wavelength at 1550 nm.
ISSN:1943-0655

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