Quantitative Sobolev regularity of quasiregular maps

Francesco Di Plinio; A. Walton Green; Brett D. Wick

doi:10.54330/afm.155498

Quantitative Sobolev regularity of quasiregular maps

Francesco Di Plinio
, A. Walton Green
, Brett D. Wick

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

Abstract

We quantify the Sobolev space norm of the Beltrami resolvent (I−µS)⁻¹, where S is the Beurling–Ahlfors transform, in terms of the corresponding Sobolev space norm of the dilatation µ in the critical and supercritical ranges. Our estimate entails as a consequence quantitative self-improvement inequalities of Caccioppoli type for quasiregular distributions with dilatations in W^1,p, p ≥ 2. Our proof strategy is then adapted to yield quantitative estimates for the resolvent (I − µS_Ω)⁻¹ of the Beltrami equation on a sufficiently regular domain Ω, with µ ∈ W^1,p(Ω). Here, S_Ω is the compression of S to a domain Ω. Our proofs do not rely on the compactness or commutator arguments previously employed in related literature. Instead, they leverage the weighted Sobolev estimates for compressions of Calderón–Zygmund operators to domains, recently obtained by the authors, to extend the Astala–Iwaniec–Saksman technique to higher regularities.

Original language	English
Pages (from-to)	3-28
Number of pages	26
Journal	Annales Academiae Scientiarum Fennicae Mathematica Dissertationes
Volume	50
Issue number	1
DOIs	https://doi.org/10.54330/afm.155498
State	Published - 2025

Keywords

Beltrami equation
Beurling–Ahlfors transform
Sobolev regularity
T1-theorems
compression of singular integrals
quasiconformal
quasiregular
weighted bounds

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@article{ff969778c3c8477281cf3cf2f4523dc3,

title = "Quantitative Sobolev regularity of quasiregular maps",

abstract = "We quantify the Sobolev space norm of the Beltrami resolvent (I−µS)−1, where S is the Beurling–Ahlfors transform, in terms of the corresponding Sobolev space norm of the dilatation µ in the critical and supercritical ranges. Our estimate entails as a consequence quantitative self-improvement inequalities of Caccioppoli type for quasiregular distributions with dilatations in W1,p, p ≥ 2. Our proof strategy is then adapted to yield quantitative estimates for the resolvent (I − µSΩ)−1 of the Beltrami equation on a sufficiently regular domain Ω, with µ ∈ W1,p(Ω). Here, SΩ is the compression of S to a domain Ω. Our proofs do not rely on the compactness or commutator arguments previously employed in related literature. Instead, they leverage the weighted Sobolev estimates for compressions of Calder{\'o}n–Zygmund operators to domains, recently obtained by the authors, to extend the Astala–Iwaniec–Saksman technique to higher regularities.",

keywords = "Beltrami equation, Beurling–Ahlfors transform, Sobolev regularity, T1-theorems, compression of singular integrals, quasiconformal, quasiregular, weighted bounds",

author = "\{Di Plinio\}, Francesco and Green, \{A. Walton\} and Wick, \{Brett D.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Finnish Mathematical Society.",

year = "2025",

doi = "10.54330/afm.155498",

language = "English",

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journal = "Annales Academiae Scientiarum Fennicae Mathematica Dissertationes",

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T1 - Quantitative Sobolev regularity of quasiregular maps

AU - Di Plinio, Francesco

AU - Green, A. Walton

AU - Wick, Brett D.

PY - 2025

Y1 - 2025

N2 - We quantify the Sobolev space norm of the Beltrami resolvent (I−µS)−1, where S is the Beurling–Ahlfors transform, in terms of the corresponding Sobolev space norm of the dilatation µ in the critical and supercritical ranges. Our estimate entails as a consequence quantitative self-improvement inequalities of Caccioppoli type for quasiregular distributions with dilatations in W1,p, p ≥ 2. Our proof strategy is then adapted to yield quantitative estimates for the resolvent (I − µSΩ)−1 of the Beltrami equation on a sufficiently regular domain Ω, with µ ∈ W1,p(Ω). Here, SΩ is the compression of S to a domain Ω. Our proofs do not rely on the compactness or commutator arguments previously employed in related literature. Instead, they leverage the weighted Sobolev estimates for compressions of Calderón–Zygmund operators to domains, recently obtained by the authors, to extend the Astala–Iwaniec–Saksman technique to higher regularities.

AB - We quantify the Sobolev space norm of the Beltrami resolvent (I−µS)−1, where S is the Beurling–Ahlfors transform, in terms of the corresponding Sobolev space norm of the dilatation µ in the critical and supercritical ranges. Our estimate entails as a consequence quantitative self-improvement inequalities of Caccioppoli type for quasiregular distributions with dilatations in W1,p, p ≥ 2. Our proof strategy is then adapted to yield quantitative estimates for the resolvent (I − µSΩ)−1 of the Beltrami equation on a sufficiently regular domain Ω, with µ ∈ W1,p(Ω). Here, SΩ is the compression of S to a domain Ω. Our proofs do not rely on the compactness or commutator arguments previously employed in related literature. Instead, they leverage the weighted Sobolev estimates for compressions of Calderón–Zygmund operators to domains, recently obtained by the authors, to extend the Astala–Iwaniec–Saksman technique to higher regularities.

KW - Beltrami equation

KW - Beurling–Ahlfors transform

KW - Sobolev regularity

KW - T1-theorems

KW - compression of singular integrals

KW - quasiconformal

KW - quasiregular

KW - weighted bounds

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U2 - 10.54330/afm.155498

DO - 10.54330/afm.155498

M3 - Article

AN - SCOPUS:85216853369

SN - 1239-6303

VL - 50

SP - 3

EP - 28

JO - Annales Academiae Scientiarum Fennicae Mathematica Dissertationes

JF - Annales Academiae Scientiarum Fennicae Mathematica Dissertationes

IS - 1

ER -

Quantitative Sobolev regularity of quasiregular maps

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Keywords

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