Orbital Angular Momentum Mode Propagation and Supercontinuum Generation in a Soft Glass Bragg Fiber

Orbital Angular Momentum Mode Propagation and Supercontinuum Generation in a Soft Glass Bragg Fiber

This manuscript presents a ring-core Bragg Fiber (RC-BF) for orbital angular momentum (OAM) modes propagation and supercontinuum generation. The proposed RC-BF is composed of alternating layers of soft glasses SF57 and LLF1 to render high nonlinearity to the fiber. Mode analysis using full-vectorial...

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Veröffentlicht in:IEEE access 2023-01, Vol.11, p.1-1
Hauptverfasser: Dyavangoudar, Amogh A, Chhipa, Mayur Kumar, Saharia, Ankur, Ismail, Yaseera, Petruccione, Francesco, Bourdine, Anton V., Morozov, Oleg G., Demidov, Vladimir V., Yin, Juan, Singh, Ghanshyam, Tiwari, Manish
Format: Artikel
Sprache:eng
Schlagworte:
Angular momentum
Bragg fiber
Bragg gratings
Dispersion
Finite Element Method
Finite element methods
Nonlinearity
OAM modes
Optical fiber dispersion
Optical fiber networks
Optical fibers
Propagation modes
Refractive index
Supercontinuum generation
Zero-Dispersion Wavelength
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Zusammenfassung:This manuscript presents a ring-core Bragg Fiber (RC-BF) for orbital angular momentum (OAM) modes propagation and supercontinuum generation. The proposed RC-BF is composed of alternating layers of soft glasses SF57 and LLF1 to render high nonlinearity to the fiber. Mode analysis using full-vectorial finite element method resulted in obtaining HE/EH modes to support vector modes as well as orbital angular momentum modes. The optimized fiber supports 22 OAM modes and exhibits a zero-dispersion wavelength (ZDW). The small effective area of Fiber 3 aided in achieving the highest nonlinearity, γ = 91.51 W -1 km -1 . A near-infrared supercontinuum is generated with a 35 dB flatness over a bandwidth of ~1087 - 2024 nm in a 20 cm long RC-BF using a chirp-free hyperbolic secant pulse of width 200 fs and peak power of 5 kW.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2023.3281370