Tran Bao Tran Le scite author profile

Tran Bao Tran Le

5Publications

3Citation Statements Received

0Citation Statements Given

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Affiliations

Vinh University, Hue University's College of Education

Publications

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Nonlinear Characteristics of Square Solid-Core Photonic Crystal Fibers With Various Lattice Parameters in the Cladding

Dang

Chu

et al. 2022

DLU JOS

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Nonlinear characteristics of fused silica, solid-core photonic crystal fibers (PCFs) with a square array of air holes are studied numerically. We present a novel design that emphasizes the difference in air hole diameters in the photonic cladding. These PCFs have the advantages of flat dispersion, high nonlinearity, and low attenuation. Based on simulation results, three optimal structures, denoted #F1, #F2, and #F3, having anomalous and all-normal dispersions in the near-infrared range are selected to investigate characteristic properties at the pump wavelength. Such PCFs open up many possibilities for nonlinear optical applications, especially supercontinuum generation.

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Comparison of dispersion characteristics of hollow-core photonic crystal fibers filled with aromatic compounds

et al. 2022

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In this paper, hollow-core photonic crystal fibers (PCFs) infiltrated with benzene and nitrobenzene are designed and investigated. Their dispersion characteristics are numerically simulated. The results show that using the aromatic-compounds-filled hollow core of PCFs makes dispersion curves flat. In addition, the dispersion curves approach the zero-dispersion line closer than previously published dispersion curves of PCFs with toluene, thus significantly improving the supercontinuum generation to create the ultra-flat spectrum expansion.

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Nonlinear properties of circular solid-core photonic crystal fiber with air-hole diameter difference and spacing in the cladding

Le¹,

Dang

Chu

et al. 2022

hueuni-jns

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We emphasize the ability to control the nonlinear properties of silica-based circular solid-core photonic crystal fibers (PCFs) with a new design. In this fiber, the diameter of the air hole in the rings is different, and the lattice constant is ununiform in the cladding. The simulation results show that a near-zero ultra-flattened chromatic dispersion over a wide wavelength range and low attenuation in these PCFs is achieved. Two structures with the lattice constant, Ʌ, of 0.7 and 0.9 µm and filling factor, d1/Ʌ, of 0.45 in the first ring were selected and investigated in detail. These structures are capable of generating broad-spectrum supercontinuum.

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Influence of Structural Parameters on Optical Characteristics of Photonic Crystal Fibers With Circular Lattice

Dang

Chu

et al. 2022

DLU JOS

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We demonstrate in this study that near-zero, ultra-flattened chromatic dispersion can be achieved over a wide range of wavelengths in photonic crystal fibers (PCFs) by means of slight variations in the geometrical parameters of the cladding. To do that, a new solid-core circular PCF design with various air hole diameters and lattice constants is presented, and the design features are numerically analyzed in detail. After 40 simulations, we determined three structures that possess optimal dispersion with the following lattice constants (Ʌ) and filling factors for the first ring (d1/Ʌ): Ʌ = 0.8 µm, d1/Ʌ = 0.45 for #F1, Ʌ = 0.9 µm, d1/Ʌ = 0.45 for #F2, and Ʌ = 1.0 µm, d1/Ʌ = 0.45 for #F3. High nonlinearity and low attenuation are outstanding features of our model. With these advantages, the proposed fibers are targeted for smooth flat broadband supercontinuum generation for near-infrared applications.

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Dispersion and nonlinearity properties of small solid-core photonic fibers with As2Se3 substrate

Nguyen

Hoang

et al. 2022

hueuni-jns

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Characteristics of As2Se3 photonic crystal fibers (PCFs) with a solid-core and small-core diameter are numerically investigated in the long-wavelength range (from 2 to 10 μm). A full modal analysis and optical properties of designed photonic crystal fibers with lattice constant Λ and filling factor d/Λ are presented in terms of chromatic dispersion, effective refractive index, nonlinear coefficients, and confinement loss. The simulation results show that a high nonlinear coefficient of 4410.303 W–1·km–1 and a low confinement loss of 10−20 dB·km–1 can simultaneously be achieved in the proposed PCFs at a 4.5 μm wavelength. Chromatic dispersions are ﬂat. The values of dispersion increase with increasing filling factor d/Λ and decrease with the increase in lattice constant Λ. In particular, some chromatic dispersion curves also cut the zero-dispersion line at two points. The flat dispersion feature, high nonlinearity, and small confinement loss of the proposed photonic crystal fiber structure make it suitable for supercontinuum.

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Tran Bao Tran Le

Nonlinear Characteristics of Square Solid-Core Photonic Crystal Fibers With Various Lattice Parameters in the Cladding

Comparison of dispersion characteristics of hollow-core photonic crystal fibers filled with aromatic compounds

Nonlinear properties of circular solid-core photonic crystal fiber with air-hole diameter difference and spacing in the cladding

Influence of Structural Parameters on Optical Characteristics of Photonic Crystal Fibers With Circular Lattice

Dispersion and nonlinearity properties of small solid-core photonic fibers with As2Se3 substrate

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