Relevant bibliographies by topics / Photonic Crystal Fiber (PCF); Ultra-High Birefringence; Nonlinear Coefficient

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Academic literature on the topic 'Photonic Crystal Fiber (PCF); Ultra-High Birefringence; Nonlinear Coefficient'

Author: Grafiati
Published: 3 June 2025
Last updated: 31 July 2025

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Journal articles on the topic "Photonic Crystal Fiber (PCF); Ultra-High Birefringence; Nonlinear Coefficient"

1

Biswas, Shovasis Kumar. "DESIGN OF HEXAGONAL PHOTONIC CRYSTAL FIBER WITH ULTRA-HIGH BIREFRINGENT AND LARGE NEGATIVE DISPERSION COEFFICIENT FOR THE APPLICATION OF BROADBAND FIBER." International Journal of Engineering Science Technologies 2, no. 1 (2019): 9–16. http://dx.doi.org/10.29121/ijoest.v2.i1.2017.02.

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The purpose of this paper is to design a hexagonal microstructure photonic crystal fiber (PCF) which gives ultra-high birefringence and very low confinement loss for sensing application. To characterize the modal properties of the proposed photonic crystal fiber, finite element method is used. We found ultra-high birefringence of 3.34×10-2 at operating wavelength 1550nm by using simulation software comsol multiphysics. Our proposed PCF gives large value of nonlinear coefficient of 63.51 W-1km-1, large value of negative dispersion coefficient of -566.6 ps/ (nm.km), and also ultra-low confinemen
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2

S., M. Rakibul Islam, Monirul Islam Md., Nafiz Ahbabur Rahman Md., Mahmudul Alam Mia Mohammad, Shahrier Hakim Md, and Kumar Biswas Shovasis. "DESIGN OF HEXAGONAL PHOTONIC CRYSTAL FIBER WITH ULTRA-HIGH BIREFRINGENT AND LARGE NEGATIVE DISPERSION COEFFICIENT FOR THE APPLICATION OF BROADBAND FIBER." International Journal of Engineering Science Technologies 2, no. 1 (2017): 9–16. https://doi.org/10.5281/zenodo.1036615.

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Abstract:
The purpose of this paper is to design a hexagonal microstructure photonic crystal fiber (PCF) which gives ultra-high birefringence and very low confinement loss for sensing application. To characterize the modal properties of the proposed photonic crystal fiber, finite element method is used. We found ultra-high birefringence of 3.34×10-<sup>2 </sup>at operating wavelength 1550nm by using simulation software comsol multiphysics. Our proposed PCF gives large value of nonlinear coefficient of 63.51 W-<sup>1</sup>km-<sup>1</sup>, large value of negative dispersion coefficient of -566.6 ps/ (nm.k
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3

Ademgil, Huseyin. "Highly birefringent large mode area photonic crystal fiber-based sensor for interferometry applications." Modern Physics Letters B 30, no. 36 (2016): 1650422. http://dx.doi.org/10.1142/s0217984916504224.

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In this work, highly birefringent large mode area (LMA) photonic crystal fiber (PCF) structure for interferometric sensor applications is proposed. The effective mode area, birefringence and the sensitivity coefficient of the proposed PCF structure by employing the full vectorial finite element method (FV-FEM) have been thoroughly investigated. The numerical results have shown that proposed structure simultaneously offers high birefringence of order 10[Formula: see text], adequately LMA and high sensitivity for various liquid analytes by employing the elliptical liquid core holes.
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4

Mohammadd, N., L. F. Abdulrazak, S. R. Tahhan, et al. "GaP-filled PCF with ultra-high birefringence and nonlinearity for distinctive optical applications." Journal of Ovonic Research 18, no. 2 (2022): 129–40. http://dx.doi.org/10.15251/jor.2022.182.129.

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A gallium phosphide (GaP) based photonic crystal fiber (PCF) with hexagonal air hole arrangements is introduced in this study that reveals high birefringence (Br) and nonlinear coefficient (NLC). Numerous optical properties, such as birefringence, nonlinearity, dispersion, confinement loss, effective area, core power fraction, etc. are studied by finetuning the geometrical variables, applying the finite element method (FEM). The numerical analyses demonstrate that an ultra-high Br of 59.1 × 10−2 and NLC of 2.37 × 105 𝑊−1𝐾𝑚−1 with a large negative dispersion of ―3875.21 ps. nm―1 . km−1 can be a
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5

Amin, Ruhul, Lway Faisal Abdulrazak, Shaymaa R. Tahhan, et al. "Tellurite glass based optical fiber for the investigation of supercontinuum generation and nonlinear properties." Physica Scripta 97, no. 3 (2022): 030007. http://dx.doi.org/10.1088/1402-4896/ac5359.

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Abstract This manuscript introduces a unique tellurite core-based photonic crystal fiber (PCF) with silica clad and circular air holes, which manifests highly birefringent and non-linear characteristics. Several optical features, such as birefringence (Br), nonlinear coefficients (NLC), dispersion (D), confinement loss (CL), material loss, etc are thoroughly analyzed and explored by applying the finite element method (FEM). The simulated outcomes validate that by optimizing the formation of the cladding region, a large NLC of 7650 W − 1 Km − 1 , as well as an ultra-high Br of 11.2810 − 2 and z
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6

Devika, V., and M. S. Mani Rajan. "Hexagonal PCF of honeycomb lattice with high birefringence and high nonlinearity." International Journal of Modern Physics B 34, no. 10 (2020): 2050094. http://dx.doi.org/10.1142/s0217979220500940.

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This paper presents an optimum design for highly birefringent micro structured photonic crystal fiber (PCF). This is designed with novel hexagonal PCF of honeycomb lattice cladding with hexagonal shaped air cavities and the kernel of the hive is formed by two oblong air holes. The dispersion characteristics of this novel structure have been analyzed analytically using Finite Element Method (FEM) and reported for dispersion and nonlinear coefficient including other fiber parameter. This structure is optimized with distinctive parameters of fiber geometry like pitch of the core, diameters of ell
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7

Wang, Weilong, Zejun Zhang, Songjie Liu, Xiyin Wang, Yasuhide Tsuji, and Jing Xu. "Design of Single-Polarized Single-mode Photonic Crystal Fiber Without Air Holes in the Cladding." Journal of Physics: Conference Series 2486, no. 1 (2023): 012055. http://dx.doi.org/10.1088/1742-6596/2486/1/012055.

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Abstract This study proposes a novel single-polarized single-mode (SPSM) photonic crystal fiber (PCF) without air holes in the cladding, and the silicon nitride holes and air holes in the core of the PCF are staggered. Based on the full vector finite element method, the birefringence characteristics with different hole sizes have been discussed in detail, and a SPSM-PCF is achieved through optimizing the core structure. Moreover, the extinction ratio, effective refractive index, dispersion, confinement loss and nonlinearity of the PCF are analyzed. Simulation results show that the PCF can obta
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8

Liu, Zihan, Jialin Wen, Zhengyong Zhou, Yuming Dong, and Tianyu Yang. "A Highly Birefringent Photonic Crystal Fiber with Three Rows of Circular Air Holes." Photonics 10, no. 5 (2023): 527. http://dx.doi.org/10.3390/photonics10050527.

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An exceptionally high-performance, high-birefringent photonic crystal fiber (PCF) is meticulously designed. The core design features a unique arrangement in which the central row of circular air holes is substituted by three rows of smaller circular holes. Subsequently, the middle row is adjusted to achieve various rectangular mode field configurations. With the optimized structure parameters, the birefringence of the PCF can reach 3.57 × 10−2 at a wavelength of 1.55 μm. The confinement loss is as low as 8.4 × 10−6 dB/m. The nonlinear coefficient is up to 41 W−1·km−1. The dispersion is relativ
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9

Biswas, Shovasis, S. Islam, Md Islam, Mohammad Mia, Summit Sayem, and Feroz Ahmed. "Design of an Ultrahigh Birefringence Photonic Crystal Fiber with Large Nonlinearity Using All Circular Air Holes for a Fiber-Optic Transmission System." Photonics 5, no. 3 (2018): 26. http://dx.doi.org/10.3390/photonics5030026.

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This paper proposes a hexagonal photonic crystal fiber (H-PCF) structure with all circular air holes in order to simultaneously achieve ultrahigh birefringence and high nonlinearity. The H-PCF design consists of an asymmetric core region, where one air hole is a reduced diameter and the air hole in its opposite vertex is omitted. The light-guiding properties of the proposed H-PCF structure were studied using the full-vector finite element method (FEM) with a circular perfectly matched layer (PML). The simulation results showed that the proposed H-PCF exhibits an ultrahigh birefringence of 3.87
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10

Yu, Fei, Zhenpeng Wang, Wenhao Yang, and Chongyang Lv. "Characteristics of Highly Birefringent Photonic Crystal Fiber with Defected Core and Equilateral Pentagon Architecture." Advances in OptoElectronics 2016 (August 29, 2016): 1–8. http://dx.doi.org/10.1155/2016/5301372.

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A novel high birefringence and nearly zero dispersion-flattened photonic crystal fiber (PCF) with elliptical defected core (E-DC) and equilateral pentagonal architecture is designed. By applying the full-vector finite element method (FEM), the characteristics of electric field distribution, birefringence, and chromatic dispersion of the proposed E-DC PCF are numerically investigated in detail. The simulation results reveal that the proposed PCF can realize high birefringence, ranging from 10-3 to 10-2 orders of magnitude, owing to the embedded elliptical air hole in the core center. However, t
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