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Analysis of the L1 scheme for a time fractional parabolic–elliptic problem involving weak singularity

Sudarshan Santra, Jugal Mohapatra

2020Mathematical Methods in the Applied Sciences31 citationsDOI

Abstract

A time fractional initial boundary value problem of mixed parabolic–elliptic type is considered. The domain of such problem is divided into two subdomains. A reaction–diffusion parabolic problem is considered on the first domain, and on the second, a convection–diffusion elliptic type problem is considered. Such problem has a mild singularity at the initial time t = 0 . The classical L1 scheme is introduced to approximate the temporal derivative, and a second order standard finite difference scheme is used to approximate the spatial derivatives. The domain is discretized with uniform mesh for both directions. It is shown that the order of convergence is more higher away from t = 0 than the order of convergence on the whole domain. To show the efficiency of the scheme, numerical results are provided.

Topics & Concepts

MathematicsMathematical analysisDiscretizationSingularityDomain (mathematical analysis)Convergence (economics)Elliptic operatorParabolic partial differential equationBoundary value problemElliptic curveApplied mathematicsPartial differential equationEconomicsEconomic growthDifferential Equations and Numerical MethodsFractional Differential Equations SolutionsNonlinear Differential Equations Analysis