Fractional Laplace operator in two dimensions, approximating matrices, and related spectral analysis

LIDIA ACETO; Mariarosa Mazza; Stefano Serra‑Capizzano

doi:10.1007/s10092-020-00369-3

Fractional Laplace operator in two dimensions, approximating matrices, and related spectral analysis

LIDIA ACETO, Mariarosa Mazza, Stefano Serra‑Capizzano

Dipartimento di Scienze e Innovazione Tecnologica

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

In this work we review some proposals to define the fractional Laplace operator in two or more spatial variables and we provide their approximations using finite differences or the so-called Matrix Transfer Technique. We study the structure of the resulting large matrices from the spectral viewpoint. In particular, by considering the matrix-sequences involved, we analyze the extreme eigenvalues, we give estimates on conditioning, and we study the spectral distribution in the Weyl sense using the tools of the theory of Generalized Locally Toeplitz matrix-sequences. Furthermore, we give a concise description of the spectral properties when non-constant coefficients come into play. Several numerical experiments are reported and critically discussed.

Lingua originale	Inglese
pagine (da-a)	1-25
Numero di pagine	25
Rivista	Calcolo
Volume	57
DOI	https://doi.org/10.1007/s10092-020-00369-3
Stato di pubblicazione	Pubblicato - 2020

Keywords

GLT theory
Riesz fractional derivative operator
Toeplitz matrices
matrix transfer technique
spectral analysis

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10.1007/s10092-020-00369-3

http://hdl.handle.net/11579/126193

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abstract = "In this work we review some proposals to define the fractional Laplace operator in two or more spatial variables and we provide their approximations using finite differences or the so-called Matrix Transfer Technique. We study the structure of the resulting large matrices from the spectral viewpoint. In particular, by considering the matrix-sequences involved, we analyze the extreme eigenvalues, we give estimates on conditioning, and we study the spectral distribution in the Weyl sense using the tools of the theory of Generalized Locally Toeplitz matrix-sequences. Furthermore, we give a concise description of the spectral properties when non-constant coefficients come into play. Several numerical experiments are reported and critically discussed.",

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author = "LIDIA ACETO and Mariarosa Mazza and Stefano Serra‑Capizzano",

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doi = "10.1007/s10092-020-00369-3",

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T1 - Fractional Laplace operator in two dimensions, approximating matrices, and related spectral analysis

AU - ACETO, LIDIA

AU - Mazza, Mariarosa

AU - Serra‑Capizzano, Stefano

PY - 2020

Y1 - 2020

N2 - In this work we review some proposals to define the fractional Laplace operator in two or more spatial variables and we provide their approximations using finite differences or the so-called Matrix Transfer Technique. We study the structure of the resulting large matrices from the spectral viewpoint. In particular, by considering the matrix-sequences involved, we analyze the extreme eigenvalues, we give estimates on conditioning, and we study the spectral distribution in the Weyl sense using the tools of the theory of Generalized Locally Toeplitz matrix-sequences. Furthermore, we give a concise description of the spectral properties when non-constant coefficients come into play. Several numerical experiments are reported and critically discussed.

AB - In this work we review some proposals to define the fractional Laplace operator in two or more spatial variables and we provide their approximations using finite differences or the so-called Matrix Transfer Technique. We study the structure of the resulting large matrices from the spectral viewpoint. In particular, by considering the matrix-sequences involved, we analyze the extreme eigenvalues, we give estimates on conditioning, and we study the spectral distribution in the Weyl sense using the tools of the theory of Generalized Locally Toeplitz matrix-sequences. Furthermore, we give a concise description of the spectral properties when non-constant coefficients come into play. Several numerical experiments are reported and critically discussed.

KW - GLT theory

KW - Riesz fractional derivative operator

KW - Toeplitz matrices

KW - matrix transfer technique

KW - spectral analysis

KW - GLT theory

KW - Riesz fractional derivative operator

KW - Toeplitz matrices

KW - matrix transfer technique

KW - spectral analysis

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DO - 10.1007/s10092-020-00369-3

M3 - Article

SN - 1126-5434

VL - 57

SP - 1

EP - 25

JO - Calcolo

JF - Calcolo

ER -

Fractional Laplace operator in two dimensions, approximating matrices, and related spectral analysis

Abstract

Keywords

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