THE REGULAR FREE BOUNDARY IN THE THIN OBSTACLE PROBLEM FOR DEGENERATE PARABOLIC EQUATIONS

A. Banerjee; D. Danielli; N. Garofalo; A. Petrosyan

doi:10.1090/SPMJ/1656

THE REGULAR FREE BOUNDARY IN THE THIN OBSTACLE PROBLEM FOR DEGENERATE PARABOLIC EQUATIONS

A. Banerjee, D. Danielli, N. Garofalo, A. Petrosyan

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

This paper is devoted to the existence, the optimal regularity of solutions, and the regularity of the free boundary near the so-called regular points in a thin obstacle problem that arises as the local extension of the obstacle problem for the fractional heat operator (∂t — ∆x)^s for s ϵ (0, 1). The regularity estimates are completely local in nature. This aspect is of crucial importance in our forthcoming work on the blowup analysis of the free boundary, including the study of the singular set. The approach is based on first establishing the boundedness of the time-derivative of the solution. This allows reduction to an elliptic problem at every fixed time level. By using several results from the elliptic theory, including the epiperimetric inequality, the optimal regularity is established for solutions as well as the (Formula presented) regularity of the free boundary near such regular points.

Original language	English (US)
Pages (from-to)	449-480
Number of pages	32
Journal	St. Petersburg Mathematical Journal
Volume	32
Issue number	3
DOIs	https://doi.org/10.1090/SPMJ/1656
State	Published - 2021
Externally published	Yes

Keywords

Signorini complementary conditions
elastostatics
fractional heat equation
problems with unilateral constraints

ASJC Scopus subject areas

Analysis
Algebra and Number Theory
Applied Mathematics

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10.1090/SPMJ/1656

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title = "THE REGULAR FREE BOUNDARY IN THE THIN OBSTACLE PROBLEM FOR DEGENERATE PARABOLIC EQUATIONS",

abstract = "This paper is devoted to the existence, the optimal regularity of solutions, and the regularity of the free boundary near the so-called regular points in a thin obstacle problem that arises as the local extension of the obstacle problem for the fractional heat operator (∂t — ∆x)s for s ϵ (0, 1). The regularity estimates are completely local in nature. This aspect is of crucial importance in our forthcoming work on the blowup analysis of the free boundary, including the study of the singular set. The approach is based on first establishing the boundedness of the time-derivative of the solution. This allows reduction to an elliptic problem at every fixed time level. By using several results from the elliptic theory, including the epiperimetric inequality, the optimal regularity is established for solutions as well as the (Formula presented) regularity of the free boundary near such regular points.",

keywords = "Signorini complementary conditions, elastostatics, fractional heat equation, problems with unilateral constraints",

author = "A. Banerjee and D. Danielli and N. Garofalo and A. Petrosyan",

note = "Funding Information: 2020 Mathematics Subject Classification. Primary 35R35. Key words and phrases. Signorini complementary conditions, elastostatics, problems with unilateral constraints, fractional heat equation. The first author was supported in part by SERB Matrix grant MTR/2018/000267. The third author was supported in part by a Progetto SID (Investimento Strategico di Dipartimento) “Non-local operators in geometry and in free boundary problems, and their connection with the applied sciences,” University of Padova, 2017. The fourth author was supported in part by NSF Grant DMS-1800527. Publisher Copyright: {\textcopyright} 2021 American Mathematical Society. All Rights Reserved.",

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N1 - Funding Information: 2020 Mathematics Subject Classification. Primary 35R35. Key words and phrases. Signorini complementary conditions, elastostatics, problems with unilateral constraints, fractional heat equation. The first author was supported in part by SERB Matrix grant MTR/2018/000267. The third author was supported in part by a Progetto SID (Investimento Strategico di Dipartimento) “Non-local operators in geometry and in free boundary problems, and their connection with the applied sciences,” University of Padova, 2017. The fourth author was supported in part by NSF Grant DMS-1800527. Publisher Copyright: © 2021 American Mathematical Society. All Rights Reserved.

PY - 2021

Y1 - 2021

N2 - This paper is devoted to the existence, the optimal regularity of solutions, and the regularity of the free boundary near the so-called regular points in a thin obstacle problem that arises as the local extension of the obstacle problem for the fractional heat operator (∂t — ∆x)s for s ϵ (0, 1). The regularity estimates are completely local in nature. This aspect is of crucial importance in our forthcoming work on the blowup analysis of the free boundary, including the study of the singular set. The approach is based on first establishing the boundedness of the time-derivative of the solution. This allows reduction to an elliptic problem at every fixed time level. By using several results from the elliptic theory, including the epiperimetric inequality, the optimal regularity is established for solutions as well as the (Formula presented) regularity of the free boundary near such regular points.

AB - This paper is devoted to the existence, the optimal regularity of solutions, and the regularity of the free boundary near the so-called regular points in a thin obstacle problem that arises as the local extension of the obstacle problem for the fractional heat operator (∂t — ∆x)s for s ϵ (0, 1). The regularity estimates are completely local in nature. This aspect is of crucial importance in our forthcoming work on the blowup analysis of the free boundary, including the study of the singular set. The approach is based on first establishing the boundedness of the time-derivative of the solution. This allows reduction to an elliptic problem at every fixed time level. By using several results from the elliptic theory, including the epiperimetric inequality, the optimal regularity is established for solutions as well as the (Formula presented) regularity of the free boundary near such regular points.

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THE REGULAR FREE BOUNDARY IN THE THIN OBSTACLE PROBLEM FOR DEGENERATE PARABOLIC EQUATIONS

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