Performance of Silica Single Mode Hollow-core Optical Fibers in Optical Communications
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Year : 2022,
Volume & Issue : BPAS-Physics 41D(1), JAN-JUN 2022
Page No. : 8-13,
Article Type : Original Aticle
Article DOI : 10.5958/2320-3218.2022.00002.1 (Received on 26.08.2021 Revised on 28.12.2022 Accepted on 05.01.2022)
Categories: 41D(1), JAN-JUN 2022, BPAS-Physics
Description
Description
Upendra Kumar Yadav
Author’s Affiliation : Upendra Kumar Yadav Research Scholar, University Department of Physics, J.P. University, Chapra, Bihar 841301, India.
E-mail: upendraddp1986@gmail.com
Corresponding Author : Upendra Kumar Yadav Research Scholar, University Department of Physics, J.P. University, Chapra, Bihar 841301, India.,
E-Mail:-upendraddp1986@gmail.com
Abstract
We have studied the performance of silica single mode hollow-core optical fibers in optical communication. Silica single mode optical fibers form the core of high capacity telecommunication network. Hollow-core optical fibers have an air filled core surrounded with micro structured glass cladding allowing high level of light confinement. Light guiding mechanism of Bragg, photonic band gap and antiresonant fibers were considered. Nested antiresonant nodeless fibers and conjoined fibers are the two most promising antiresonant fiber designs for achieving ultra-low attenuation. Mode field adaptation using graded index multimode fiber; we have achieved record low insertions loss and also suppressed higher order modes. Deposition of anti-reflective coating allowed reducing unwanted back reflections. We have developed an approach for a hollow-core optical fiber of single mode interconnection based on a modified fiber array technology which solved the problem of back reflections by applying optical coating. Fundamental mode coupling was achieved by using mode theory adapters in the form of graded index multimode fibers.
How to cite this article: Yadav UK. (2022). Performance of Silica Single Mode Hollow-core Optical Fibers in Optical Communications. Bulletin of Pure and Applied Sciences- Physics, 41D (1), 8-13.
Keywords
Single mode, Hollow-Core Fiber, Optical Communication, Microstructured, Cladding, Photonic Band Gap, Antiresonant, Attenuation, Mode Field, Fiber Array, Optical Coating.