Analysis of dispersion characteristics of solid-core PCFs with different types of lattice in the claddings, infiltrated with ethanol

Tran, Bao Tran Le; Thị, Thủy Nguyễn; Minh, Ngoc Vo Thi; Canh, Trung Le; Van, Minh Le; Long, Van Cao; Xuan, Khoa Dinh; Chu, Lanh Van

doi:10.4302/plp.v12i4.1054

Cited by 13 publications

(6 citation statements)

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“…Specifically, the chromatic dispersion coefficient (D) of PCFs was calculated from effective refractive index n eff values versus the wavelength as Eq. (2) [16]:…”

Section: Sellmeier's Coefficients Valuesmentioning

confidence: 99%

“…In particular, square lattice PCFs have low confinement loss and facilitate efficient long-distance light transmission. They provide polarization maintenance and compact integration into small optical systems [14][15][16][17]. So far, the PCFs with a solid core with the first ring removed has not been given much consideration yet.…”

Section: Introductionmentioning

confidence: 99%

“…In terms of materials, there has been a departure from the traditional fused-silica PCFs with the limitation being its low nonlinear refractive index and its wavelength limit does not exceed 2.0 µm [16,20]. Instead, researchers have recently injected liquid with a high nonlinear refractive index into the core, air holes, or used chalcogenide glass as the substrate material.…”

Section: Introductionmentioning

confidence: 99%

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Structure optimization of large-solid-core photonic crystal fibers based on Ge\(_{20}\)Sb\(_{5}\)Se\(_{75}\) for optical applications

Ngoc Vo Thi Minh,

Danh Nguyen Thanh,

An Nguyen Manh

et al. 2023

Comm. Phys.

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This paper presents a new design of Ge20Sb5Se75 large-solid-core photonic crystal fiber (PCF) with a 1st-ring-removed square lattice. Using the full vector finite element method for anisotropic perfectly matched layers, we numerically examine the dispersion characteristics of the PCF in the wavelength range spanning from 1.5 µm to 6.0 µm. The results reveal that photonic crystal fibers exhibit a variety of dispersion properties, including all-normal and anomalous dispersion, featuring one or two zero dispersion wavelengths (ZDWs). We propose two designs with optimal dispersion characteristics based on our numerical simulations. These designs have small lattice constants (Ʌ = 1.0 µm; Ʌ = 1.5 µm) and low fill factors (d/Ʌ = 0.3; d/Ʌ = 0.35). Furthermore, these selected fibers offer high nonlinearity and low confinement loss, making them excellent candidates for a wide range of optical applications.

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“…Specifically, the chromatic dispersion coefficient (D) of PCFs was calculated from effective refractive index n eff values versus the wavelength as Eq. (2) [16]:…”

Section: Sellmeier's Coefficients Valuesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Structure optimization of large-solid-core photonic crystal fibers based on Ge\(_{20}\)Sb\(_{5}\)Se\(_{75}\) for optical applications

Ngoc Vo Thi Minh,

Danh Nguyen Thanh,

An Nguyen Manh

et al. 2023

Comm. Phys.

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show abstract

“…These works analyzed the influence of the fill factor and lattice constant on the PCF characteristic for each lattice structure, but the optimal level of PCF feature for each type of lattice has not been evaluated yet. Recently, the work [14] has studied the influence of structural parameters on PCF properties for each type of lattice, but the authors have not applied the results obtained in supercontinuum generation. Most authors have not emphasized the role of differences in air-hole diameter in the rings in properties of PCF.…”

Section: Introductionmentioning

confidence: 99%

Study on Optical Features of Circular Photonic Crystal Fibers with Various Air-hole Size

Dang

Tran²,

Lanh³

et al. 2022

MaP

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: In this workwe proposed a newly designed photonic crystal fiber (PCF) with a circular lattice, the difference between the air-hole diameters of the first ring and the other rings makes it possible to improve the nonlinear properties of fibers. We investigated the effect of varying the filling factor (d1/Ʌ) and lattice constant (Ʌ) on the nonlinear characteristics of photonic crystal fibers in the 0.5 - 2 µm wavelength range. The advantages of these photonic crystal fibers are the flat and near-zero dispersion, low attenuation, and high nonlinear coefficient. From simulation results, we have selected three optimal structures (Ʌ = 1.0 μm; d1/Ʌ = 0.4, Ʌ = 0.8 μm; d1/Ʌ = 0.6, and Ʌ = 0.8 μm; d1/Ʌ = 0.65) to analyze the nonlinear characteristics at the pump wavelengths. The proposed fibers are valuable for supercontinuum generation. Keywords:

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“…These effects are strongly dominated by the dispersions and nonlinear properties of the PCFs. In recent years, a large number of [2][3][4][5][6][7][8][9][10][11] publications on SC via silica-based PCFs have demonstrated the ability of said PCFs to generate broad, flat, smooth, and highly coherent SC spectra, which opens up a wide range of applications such as telecommunications, optical metrology, optical coherence tomography, biomedical imaging, biomedical sensor, nonlinear microscopy, cosmological studies, ultra-short pulses, and frequency combs generation [12][13][14][15][16][17][18][19] . However, due to silica's high matter absorption, the SC spectrum has failed to extend beyond 2.5 µm and has not extended to the mid-infrared (MIR) wavelength range (2-20 µm).…”

Section: Introductionmentioning

confidence: 99%

Optimization of the optical properties of circular lattice As2Se3 photonic crystal fibers over a wide range of wavelengths

2022

Sci. Tech. Dev. J.

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In this paper, the dispersion and nonlinear properties of circular lattice photonic crystal fibers with As 2 Se 3 substrates are investigated over a wide wavelength range up to 11 µm. By solving Maxwell's wave equations using the full-vector finite-difference eigenmode method, the optical properties of the PCFs have been analyzed in detail and compared with recent studies. All-normal and anomalous dispersions with small values, very high nonlinear coefficients, and very low confinement losses have been achieved in comparison with the previous publications. The characteristic quantities of the proposed optimal fibers were obtained at the pump wavelength of 2.35 µm including flat dispersion and as small as 1.069 ps/nm.km, non-linear coefficients as high as 62023.377 W −1 .km −1 , and confinement losses as low as 10 −21 dB/m, making them suitable for use in a broadband supercontinuum generation process with a low input power. These fibers are suitable low-cost all-fiber laser sources that effectively replace the current glass fibers.

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Analysis of dispersion characteristics of solid-core PCFs with different types of lattice in the claddings, infiltrated with ethanol

Cited by 13 publications

References 0 publications

Structure optimization of large-solid-core photonic crystal fibers based on Ge\(_{20}\)Sb\(_{5}\)Se\(_{75}\) for optical applications

Structure optimization of large-solid-core photonic crystal fibers based on Ge\(_{20}\)Sb\(_{5}\)Se\(_{75}\) for optical applications

Study on Optical Features of Circular Photonic Crystal Fibers with Various Air-hole Size

Optimization of the optical properties of circular lattice As2Se3 photonic crystal fibers over a wide range of wavelengths

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