Nonlocal electrical diffusion equation-Reference-Cited by-同舟云学术

Nonlocal electrical diffusion equation

Published:2016-01 Issue:01 Volume:27 Page:1650007
ISSN:0129-1831
Container-title:International Journal of Modern Physics C
language:en
Short-container-title:Int. J. Mod. Phys. C

Author:

Gómez-Aguilar J. F.¹,Escobar-Jiménez R. F.²,Olivares-Peregrino V. H.²,Benavides-Cruz M.³,Calderón-Ramón C.³

Affiliation:

1. Cátedras CONACYT, Centro Nacional de Investigación y Desarrollo Tecnológico, Tecnológico Nacional de México, Interior Internado Palmira, S/N, Col. Palmira C.P. 62490, Cuernavaca, Morelos, México

2. Centro Nacional de Investigación y Desarrollo Tecnológico, Tecnológico Nacional de México, Interior Internado Palmira S/N, Col. Palmira, C.P. 62490, Cuernavaca, Morelos, México

3. Facultad de Ingeniería en Electrónica y Comunicaciones, Campus: Poza Rica — Tuxpan. Universidad Veracruzana, Av. Venustiano Carranza s/n, Col. Revolución, C.P. 93390, Poza Rica Veracruz, México

Abstract

In this paper, we present an analysis and modeling of the electrical diffusion equation using the fractional calculus approach. This alternative representation for the current density is expressed in terms of the Caputo derivatives, the order for the space domain is [Formula: see text] and for the time domain is [Formula: see text]. We present solutions for the full fractional equation involving space and time fractional derivatives using numerical methods based on Fourier variable separation. The case with spatial fractional derivatives leads to Levy flight type phenomena, while the time fractional equation is related to sub- or super diffusion. We show that the mathematical concept of fractional derivatives can be useful to understand the behavior of semiconductors, the design of solar panels, electrochemical phenomena and the description of anomalous complex processes.

Publisher

World Scientific Pub Co Pte Lt

Subject

Computational Theory and Mathematics,Computer Science Applications,General Physics and Astronomy,Mathematical Physics,Statistical and Nonlinear Physics

Link

https://www.worldscientific.com/doi/pdf/10.1142/S0129183116500078

Reference42 articles.

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3. Optimal Campaign Strategies in Fractional-Order Smoking Dynamics

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