On Well-Posedness of the Sub-Diffusion Equation With Conformable Derivative Model
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2020
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Elsevier
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Abstract
In this paper, we study an initial value problem for the time diffusion equation (C)partial derivative(beta)/partial derivative t(beta) u + Au = F, 0 < beta <= 1, on Omega x (0, T), where the time derivative is the conformable derivative. We study the existence and regularity of mild solutions in the following three cases with source term F: F = F (x, t), i.e., linear source term; F = F (u) is nonlinear, globally Lipchitz and uniformly bounded. The results in this case play important roles in numerical analysis. F = F (u) is nonlinear, locally Lipchitz and uniformly bounded. The analysis in this case can be widely applied to many problems such as - Time Ginzburg-Landau equations C partial derivative(beta)u/partial derivative t(beta)+ (-Delta)u = vertical bar u vertical bar(mu-1) u; - Time Burgers equations C partial derivative(beta)u/partial derivative t(beta)-( u center dot del) u + (- Delta)u = 0; etc. (C) 2020 Elsevier B.V. All rights reserved.
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Tran Bao, Ngoc/0000-0003-1600-5845; Nguyen Huy, Tuan/0000-0002-6962-1898
Keywords
Conformable Derivative, Nonlocally Differential Operator, Diffusion Equation, Existence And Regularity, Ginzburg-Landau Equation, Burger Equation
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Tuan, Nguyen Huy...et al. (2020). "On well-posedness of the sub-diffusion equation with conformable derivative model", Communications in Nonlinear Science and Numerical Simulation, Vol. 89.
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