FRACTIONAL KORN’S INEQUALITIES WITHOUT BOUNDARY CONDITIONS

Davit Harutyunyan; Tadele Mengesha; Hayk Mikayelyan; James M. Scott

doi:10.2140/memocs.2023.11.497

FRACTIONAL KORN’S INEQUALITIES WITHOUT BOUNDARY CONDITIONS

Davit Harutyunyan, Tadele Mengesha, Hayk Mikayelyan, James M. Scott

School of Mathematical Sciences

Research output: Journal Publication › Article › peer-review

Abstract

Motivated by a linear nonlocal model of elasticity, this work establishes fractional analogues of Korn’s first and second inequalities for vector fields in fractional Sobolev spaces defined over a bounded domain. The validity of the inequalities require no additional boundary condition, extending existing fractional Korn’s inequalities that are only applicable for Sobolev vector fields satisfying zero Dirichlet boundary conditions. The domain of definition is required to have a C ¹ -boundary or, more generally, a Lipschitz boundary with small Lipschitz constant. We conjecture that the inequalities remain valid for vector fields defined over any Lipschitz domain. We support this claim by presenting a proof of the inequalities for vector fields defined over planar convex domains.

Original language	English
Pages (from-to)	497-524
Number of pages	28
Journal	Mathematics and Mechanics of Complex Systems
Volume	11
Issue number	4
DOIs	https://doi.org/10.2140/memocs.2023.11.497
Publication status	Published - 2023

Keywords

fractional Hardy inequality
fractional Korn inequality
peridynamics

ASJC Scopus subject areas

Civil and Structural Engineering
Numerical Analysis
Computational Mathematics

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10.2140/memocs.2023.11.497

Cite this

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title = "FRACTIONAL KORN{\textquoteright}S INEQUALITIES WITHOUT BOUNDARY CONDITIONS",

abstract = "Motivated by a linear nonlocal model of elasticity, this work establishes fractional analogues of Korn{\textquoteright}s first and second inequalities for vector fields in fractional Sobolev spaces defined over a bounded domain. The validity of the inequalities require no additional boundary condition, extending existing fractional Korn{\textquoteright}s inequalities that are only applicable for Sobolev vector fields satisfying zero Dirichlet boundary conditions. The domain of definition is required to have a C 1 -boundary or, more generally, a Lipschitz boundary with small Lipschitz constant. We conjecture that the inequalities remain valid for vector fields defined over any Lipschitz domain. We support this claim by presenting a proof of the inequalities for vector fields defined over planar convex domains.",

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author = "Davit Harutyunyan and Tadele Mengesha and Hayk Mikayelyan and Scott, {James M.}",

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T1 - FRACTIONAL KORN’S INEQUALITIES WITHOUT BOUNDARY CONDITIONS

AU - Harutyunyan, Davit

AU - Mengesha, Tadele

AU - Mikayelyan, Hayk

AU - Scott, James M.

PY - 2023

Y1 - 2023

N2 - Motivated by a linear nonlocal model of elasticity, this work establishes fractional analogues of Korn’s first and second inequalities for vector fields in fractional Sobolev spaces defined over a bounded domain. The validity of the inequalities require no additional boundary condition, extending existing fractional Korn’s inequalities that are only applicable for Sobolev vector fields satisfying zero Dirichlet boundary conditions. The domain of definition is required to have a C 1 -boundary or, more generally, a Lipschitz boundary with small Lipschitz constant. We conjecture that the inequalities remain valid for vector fields defined over any Lipschitz domain. We support this claim by presenting a proof of the inequalities for vector fields defined over planar convex domains.

AB - Motivated by a linear nonlocal model of elasticity, this work establishes fractional analogues of Korn’s first and second inequalities for vector fields in fractional Sobolev spaces defined over a bounded domain. The validity of the inequalities require no additional boundary condition, extending existing fractional Korn’s inequalities that are only applicable for Sobolev vector fields satisfying zero Dirichlet boundary conditions. The domain of definition is required to have a C 1 -boundary or, more generally, a Lipschitz boundary with small Lipschitz constant. We conjecture that the inequalities remain valid for vector fields defined over any Lipschitz domain. We support this claim by presenting a proof of the inequalities for vector fields defined over planar convex domains.

KW - fractional Hardy inequality

KW - fractional Korn inequality

KW - peridynamics

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M3 - Article

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EP - 524

JO - Mathematics and Mechanics of Complex Systems

JF - Mathematics and Mechanics of Complex Systems

IS - 4

ER -

FRACTIONAL KORN’S INEQUALITIES WITHOUT BOUNDARY CONDITIONS

Abstract

Keywords

ASJC Scopus subject areas

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