Fractional Diffusion Equation under Singular and Non-Singular Kernel and Its Stability

Enrique C. Gabrick; Paulo R. Protachevicz; Ervin K. Lenzi; Elaheh Sayari; José Trobia; Marcelo K. Lenzi; Fernando S. Borges; Iberê L. Caldas; Antonio M. Batista

doi:10.3390/fractalfract7110792

Fractal and Fractional (Oct 2023)

Fractional Diffusion Equation under Singular and Non-Singular Kernel and Its Stability

Enrique C. Gabrick,
Paulo R. Protachevicz,
Ervin K. Lenzi,
Elaheh Sayari,
José Trobia,
Marcelo K. Lenzi,
Fernando S. Borges,
Iberê L. Caldas,
Antonio M. Batista

Affiliations

Enrique C. Gabrick: Postgraduate Program in Science, State University of Ponta Grossa, Ponta Grossa 84030-900, PR, Brazil
Paulo R. Protachevicz: Institute of Physics, University of São Paulo, São Paulo 05508-090, SP, Brazil
Ervin K. Lenzi: Postgraduate Program in Science, State University of Ponta Grossa, Ponta Grossa 84030-900, PR, Brazil
Elaheh Sayari: Postgraduate Program in Science, State University of Ponta Grossa, Ponta Grossa 84030-900, PR, Brazil
José Trobia: Department of Mathematics and Statistics, State University of Ponta Grossa, Ponta Grossa 84030-900, PR, Brazil
Marcelo K. Lenzi: Chemical Engineering Graduate Program, Federal University of Paraná, Curitiba 81531-980, PR, Brazil
Fernando S. Borges: Postgraduate Program in Science, State University of Ponta Grossa, Ponta Grossa 84030-900, PR, Brazil
Iberê L. Caldas: Institute of Physics, University of São Paulo, São Paulo 05508-090, SP, Brazil
Antonio M. Batista: Postgraduate Program in Science, State University of Ponta Grossa, Ponta Grossa 84030-900, PR, Brazil

DOI: https://doi.org/10.3390/fractalfract7110792
Journal volume & issue: Vol. 7, no. 11
p. 792

Abstract

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The fractional reaction–diffusion equation has been used in many real-world applications in fields such as physics, biology, and chemistry. Motivated by the huge application of fractional reaction–diffusion, we propose a numerical scheme to solve the fractional reaction–diffusion equation under different kernels. Our method can be particularly employed for singular and non-singular kernels, such as the Riemann–Liouville, Caputo, Fabrizio–Caputo, and Atangana–Baleanu operators. Moreover, we obtained general inequalities that guarantee that the stability condition depends explicitly on the kernel. As an implementation of the method, we numerically solved the diffusion equation under the power-law and exponential kernels. For the power-law kernel, we solved by considering fractional time, space, and both operators. In another example, we considered the exponential kernel acting on the time derivative and compared the numerical results with the analytical ones. Our results showed that the numerical procedure developed in this work can be employed to solve fractional differential equations considering different kernels.

Published in Fractal and Fractional

ISSN: 2504-3110 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Physics: Heat: Thermodynamics; Science: Mathematics: Analysis
Website: http://www.mdpi.com/journal/fractalfract

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