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Research Article | Open Access

Analytical solutions to the coupled fractional neutron diffusion equations with delayed neutrons system using Laplace transform method

Aliaa Burqan1Mohammed Shqair1Ahmad El-Ajou2Sherif M. E. Ismaeel3,4Zeyad AlZhour5( )
College of Science, Zarqa University, Zarqa 13110, Jordan
Department of Mathematics, Faculty of Science, Al-Balqa Applied University, Salt 19117, Jordan
Department of Physics College of Science and Humanities in Al-Kharj, Prince Sattam bin Abdulaziz University, Al-Kharj 11942, Saudi Arabia
Department of Physics, Faculty of Science, Ain Shams University, Cairo, Egypt
Department of Basic Engineering Sciences, College of Engineering, Imam Abdulrahman Bin Faisal University, Dammam, Saudi Arabia
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Abstract

The neutron diffusion equation (NDE) is one of the most important partial differential equations (PDEs), to describe the neutron behavior in nuclear reactors and many physical phenomena. In this paper, we reformulate this problem via Caputo fractional derivative with integer-order initial conditions, whose physical meanings, in this case, are very evident by describing the whole-time domain of physical processing. The main aim of this work is to present the analytical exact solutions to the fractional neutron diffusion equation (F-NDE) with one delayed neutrons group using the Laplace transform (LT) in the sense of the Caputo operator. Moreover, the poles and residues of this problem are discussed and determined. To show the accuracy, efficiency, and applicability of our proposed technique, some numerical comparisons and graphical results for neutron flux simulations are given and tested at different values of time t and order α which includes the exact solutions (when α = 1 ) . Finally, Mathematica software (Version 12) was used in this work to calculate the numerical quantities.

CLC number: 35R11, 44A10, 82D75

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AIMS Mathematics
Pages 19297-19312

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Cite this article:
Burqan A, Shqair M, El-Ajou A, et al. Analytical solutions to the coupled fractional neutron diffusion equations with delayed neutrons system using Laplace transform method. AIMS Mathematics, 2023, 8(8): 19297-19312. https://doi.org/10.3934/math.2023984

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Received: 27 February 2023
Revised: 14 April 2023
Accepted: 19 April 2023
Published: 15 August 2023
©2023 the Author(s), licensee AIMS Press.

This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0)