An Exponential Spectral Method Using VP Means for Semilinear Subdiffusion Equations with Rough Data

Yanping Lin; Buyang Li; Shu Ma; Qiqi Rao

doi:10.1137/22M1512041

An Exponential Spectral Method Using VP Means for Semilinear Subdiffusion Equations with Rough Data

Yanping Lin, Buyang Li, Shu Ma, Qiqi Rao

Department of Applied Mathematics

Research output: Journal article publication › Journal article › Academic research › peer-review

3 Citations (Scopus)

Abstract

A new spectral method is constructed for the linear and semilinear subdiffusion equations with possibly discontinuous rough initial data. The new method effectively combines several computational techniques, including the contour integral representation of the solutions, the quadrature approximation of contour integrals, the exponential integrator using the de la Vallée Poussin means of the source function, and a decomposition of the time interval geometrically refined towards the singularity of the solution and the source function. Rigorous error analysis shows that the proposed method has spectral convergence for the linear and semilinear subdiffusion equations with bounded measurable initial data and possibly singular source functions under the natural regularity of the solutions.

Original language	English
Pages (from-to)	2305-2326
Number of pages	22
Journal	SIAM Journal on Numerical Analysis
Volume	61
Issue number	5
DOIs	https://doi.org/10.1137/22M1512041
Publication status	Published - Oct 2023

Keywords

semilinear subdiffusion equation
singularity
exponential integrator
spectral method
VP means
geometric decomposition
contour integral
quadrature approximation
convolution quadrature

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10.1137/22M1512041

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title = "An Exponential Spectral Method Using VP Means for Semilinear Subdiffusion Equations with Rough Data",

abstract = "A new spectral method is constructed for the linear and semilinear subdiffusion equations with possibly discontinuous rough initial data. The new method effectively combines several computational techniques, including the contour integral representation of the solutions, the quadrature approximation of contour integrals, the exponential integrator using the de la Vall{\'e}e Poussin means of the source function, and a decomposition of the time interval geometrically refined towards the singularity of the solution and the source function. Rigorous error analysis shows that the proposed method has spectral convergence for the linear and semilinear subdiffusion equations with bounded measurable initial data and possibly singular source functions under the natural regularity of the solutions.",

keywords = "semilinear subdiffusion equation, singularity, exponential integrator, spectral method, VP means, geometric decomposition, contour integral, quadrature approximation, convolution quadrature",

author = "Yanping Lin and Buyang Li and Shu Ma and Qiqi Rao",

year = "2023",

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doi = "10.1137/22M1512041",

language = "English",

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pages = "2305--2326",

journal = "SIAM Journal on Numerical Analysis",

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T1 - An Exponential Spectral Method Using VP Means for Semilinear Subdiffusion Equations with Rough Data

AU - Lin, Yanping

AU - Li, Buyang

AU - Ma, Shu

AU - Rao, Qiqi

PY - 2023/10

Y1 - 2023/10

N2 - A new spectral method is constructed for the linear and semilinear subdiffusion equations with possibly discontinuous rough initial data. The new method effectively combines several computational techniques, including the contour integral representation of the solutions, the quadrature approximation of contour integrals, the exponential integrator using the de la Vallée Poussin means of the source function, and a decomposition of the time interval geometrically refined towards the singularity of the solution and the source function. Rigorous error analysis shows that the proposed method has spectral convergence for the linear and semilinear subdiffusion equations with bounded measurable initial data and possibly singular source functions under the natural regularity of the solutions.

AB - A new spectral method is constructed for the linear and semilinear subdiffusion equations with possibly discontinuous rough initial data. The new method effectively combines several computational techniques, including the contour integral representation of the solutions, the quadrature approximation of contour integrals, the exponential integrator using the de la Vallée Poussin means of the source function, and a decomposition of the time interval geometrically refined towards the singularity of the solution and the source function. Rigorous error analysis shows that the proposed method has spectral convergence for the linear and semilinear subdiffusion equations with bounded measurable initial data and possibly singular source functions under the natural regularity of the solutions.

KW - semilinear subdiffusion equation

KW - singularity

KW - exponential integrator

KW - spectral method

KW - VP means

KW - geometric decomposition

KW - contour integral

KW - quadrature approximation

KW - convolution quadrature

U2 - 10.1137/22M1512041

DO - 10.1137/22M1512041

M3 - Journal article

SN - 1095-7170

VL - 61

SP - 2305

EP - 2326

JO - SIAM Journal on Numerical Analysis

JF - SIAM Journal on Numerical Analysis

IS - 5

ER -

An Exponential Spectral Method Using VP Means for Semilinear Subdiffusion Equations with Rough Data

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