Growth of crystalline WSe2 and WS2 films on amorphous substrate by reactive (Van der Waals) rheotaxy

In this paper we investigate the porous medium equation with a fractional temporal derivative. We justify that the resulting equation emerges when we consider the waiting-time (or trapping) phenomenon that can happen in the medium. Our deterministic derivation is dual to the stochastic CTRW framework and can include nonlinear effects. With the use of the previously developed method we approximate the investigated equation along with a constant flux boundary conditions and obtain a very accurate solution. Moreover, we generalize the approximation method and provide explicit formulas which can be readily used in applications. The subdiffusive anomalies in some porous media such as construction materials have been recently verified by experiment. Our simple approximate solution of the time-fractional porous medium equation fits accurately a sample data which comes from one of these experiments.

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A nonlinear mathematical model of the corneal shape

Okrasiński¹,

Płociniczak²

2012

Nonlinear Analysis: Real World Applications

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Approximation of the Erdélyi--Kober Operator with Application to the Time-Fractional Porous Medium Equation

Płociniczak¹

2014

SIAM J. Appl. Math.

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Transformation of the vortex beam in the optical vortex scanning microscope

Płociniczak

Popiołek-Masajada

Szatkowski

et al. 2016

Optics & Laser Technology

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A weighted finite difference method for subdiffusive Black–Scholes model

Krzyżanowski

Magdziarz

Płociniczak

2020

Computers & Mathematics with Applications

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Łukasz Płociniczak

Analytical studies of a time-fractional porous medium equation. Derivation, approximation and applications

A nonlinear mathematical model of the corneal shape

Approximation of the Erdélyi--Kober Operator with Application to the Time-Fractional Porous Medium Equation

Transformation of the vortex beam in the optical vortex scanning microscope

A weighted finite difference method for subdiffusive Black–Scholes model

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