Analysis of Drude Model Using Fractional Derivatives Without Singular Kernels
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Date
2017
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Volume Title
Publisher
de Gruyter Open Ltd
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Abstract
We report study exploring the fractional Drude model in the time domain, using fractional derivatives without singular kernels, Caputo-Fabrizio (CF), and fractional derivatives with a stretched Mittag-Leffer function. It is shown that the velocity and current density of electrons moving through a metal depend on both the time and the fractional order 0 < gamma <= 1. Due to non-singular fractional kernels, it is possible to consider complete memory effects in the model, which appear neither in the ordinary model, nor in the fractional Drude model with Caputo fractional derivative. A comparison is also made between these two representations of the fractional derivatives, resulting a considered difference when gamma < 0.8.
Description
Martinez-Jimenez, Leonardo/0000-0002-7062-7154
Keywords
Fractional Calculus, Drude Model, Caputo-Fabrizio Derivative, Atangana-Baleanu Derivative
Turkish CoHE Thesis Center URL
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Citation
Martinez Jimenez, Leonardo...et al. (2017). Analysis of Drude model using fractional derivatives without singular kernels, Open Physics, 15(1), 627-636.
WoS Q
Q3
Scopus Q
Q2
OpenCitations Citation Count
4
Source
Volume
15
Issue
1
Start Page
627
End Page
636
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