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Multiple material domain‐based computational tools for ease assessment of modal parameter in photonic crystal fibers
Author(s) -
Paul Dimpi,
Biswas Rajib,
Saikia Gunjan
Publication year - 2020
Publication title -
international journal of communication systems
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.344
H-Index - 49
eISSN - 1099-1131
pISSN - 1074-5351
DOI - 10.1002/dac.4669
Subject(s) - modal , photonic crystal , photonic crystal fiber , computer science , photonics , adaptability , graphical user interface , optical fiber , fiber , usability , domain (mathematical analysis) , modal analysis , optics , materials science , electronic engineering , acoustics , optoelectronics , vibration , physics , telecommunications , human–computer interaction , engineering , mathematics , composite material , ecology , mathematical analysis , biology , programming language
Summary We report here the development of two computational tools PCFPS (Photonic Crystal Fiber Parameter Study) and PCFPA (Photonic Crystal Fiber Parameter Analysis), equipped with graphical user interface (GUI) for modeling of photonic crystal fiber. The tools are based on different structural parameters, and they provide characteristic analysis of the modal parameters from the structural parameters. The main feature of PCFPS is that it enables the user to find out the values of each defining modal parameter that has an immense contribution towards the manufacture of photonic crystal fiber. Additionally, PCFPA allows the user to observe the variation in the modal parameters with respect to the changes in structural parameters (such as d , Λ , d/Λ , and λ/>Λ ). Besides their ease of use, these two schemes have high computational precision and adaptability, giving a novel platform to optical engineers to modulate the microstructured fibers according to their requirement.