A bridge between Dubovitskiĭ–Federer theorems and the coarea formula

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A bridge between Dubovitskiĭ–Federer theorems and the coarea formula. / Hajłasz, Piotr; Korobkov, Mikhail V.; Kristensen, Jan.

в: Journal of Functional Analysis, Том 272, № 3, 01.02.2017, стр. 1265-1295.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Harvard

Hajłasz, P, Korobkov, MV & Kristensen, J 2017, 'A bridge between Dubovitskiĭ–Federer theorems and the coarea formula', Journal of Functional Analysis, Том. 272, № 3, стр. 1265-1295. https://doi.org/10.1016/j.jfa.2016.10.031

APA

Hajłasz, P., Korobkov, M. V., & Kristensen, J. (2017). A bridge between Dubovitskiĭ–Federer theorems and the coarea formula. Journal of Functional Analysis, 272(3), 1265-1295. https://doi.org/10.1016/j.jfa.2016.10.031

Vancouver

Hajłasz P, Korobkov MV, Kristensen J. A bridge between Dubovitskiĭ–Federer theorems and the coarea formula. Journal of Functional Analysis. 2017 февр. 1;272(3):1265-1295. doi: 10.1016/j.jfa.2016.10.031

Author

Hajłasz, Piotr ; Korobkov, Mikhail V. ; Kristensen, Jan. / A bridge between Dubovitskiĭ–Federer theorems and the coarea formula. в: Journal of Functional Analysis. 2017 ; Том 272, № 3. стр. 1265-1295.

BibTeX

@article{50b41f3644194e52ac20d5a975dd60a8,

title = "A bridge between Dubovitskiĭ–Federer theorems and the coarea formula",

abstract = "The Morse–Sard theorem requires that a mapping v:Rn→Rm is of class Ck, k>max⁡(n−m,0). In 1957 Dubovitskiĭ generalized this result by proving that almost all level sets for a Ck mapping have Hs-negligible intersection with its critical set, where s=max⁡(n−m−k+1,0). Here the critical set, or m-critical set is defined as Zv,m={x∈Rn:rank∇v(x)k mappings v:Rn→Rd and integers m≤d they proved that the set of m-critical values v(Zv,m) is Hq∘ -negligible for q∘=m−1+. They also established the sharpness of these results within the Ck category. Here we prove that Dubovitskiĭ's theorem can be generalized to the case of continuous mappings of the Sobolev–Lorentz class Wp,1 k(Rn,Rd), p=n/k (this is the minimal integrability assumption that guarantees the continuity of mappings). In this situation the mappings need not to be everywhere differentiable and in order to handle the set of nondifferentiability points, we establish for such mappings an analog of the Luzin N-property with respect to lower dimensional Hausdorff content. Finally, we formulate and prove a bridge theorem that includes all the above results as particular cases. As a limiting case in this bridge theorem we also establish a new coarea type formula: if E⊂{x∈Rn:rank∇v(x)≤m}, then ∫EJmv(x)dx=∫RdHn−m(E∩v−1(y))dHm(y). The mapping v is Rd-valued, with arbitrary d, and the formula is obtained without any restrictions on the image v(Rn) (such as m-rectifiability or σ-finiteness with respect to the m-Hausdorff measure). These last results are new also for smooth mappings, but are presented here in the general Sobolev context. The proofs of the results are based on our previous joint papers with J. Bourgain (2013, 2015).",

keywords = "Coarea formula, Luzin N-property, Morse–Sard theorem, Sobolev–Lorentz mappings, Sobolev-Lorentz mappings, SPACES, PROPERTY, Lnyin N-property, MORSE-SARD THEOREM, SOBOLEV FUNCTIONS, RECTIFIABLE SETS, MAPPINGS, Morse-Sard theorem",

author = "Piotr Haj{\l}asz and Korobkov, {Mikhail V.} and Jan Kristensen",

note = "Publisher Copyright: {\textcopyright} 2016 Elsevier Inc.",

year = "2017",

month = feb,

day = "1",

doi = "10.1016/j.jfa.2016.10.031",

language = "English",

volume = "272",

pages = "1265--1295",

journal = "Journal of Functional Analysis",

issn = "0022-1236",

publisher = "Academic Press Inc.",

number = "3",

}

RIS

TY - JOUR

T1 - A bridge between Dubovitskiĭ–Federer theorems and the coarea formula

AU - Hajłasz, Piotr

AU - Korobkov, Mikhail V.

AU - Kristensen, Jan

PY - 2017/2/1

Y1 - 2017/2/1

N2 - The Morse–Sard theorem requires that a mapping v:Rn→Rm is of class Ck, k>max⁡(n−m,0). In 1957 Dubovitskiĭ generalized this result by proving that almost all level sets for a Ck mapping have Hs-negligible intersection with its critical set, where s=max⁡(n−m−k+1,0). Here the critical set, or m-critical set is defined as Zv,m={x∈Rn:rank∇v(x)k mappings v:Rn→Rd and integers m≤d they proved that the set of m-critical values v(Zv,m) is Hq∘ -negligible for q∘=m−1+. They also established the sharpness of these results within the Ck category. Here we prove that Dubovitskiĭ's theorem can be generalized to the case of continuous mappings of the Sobolev–Lorentz class Wp,1 k(Rn,Rd), p=n/k (this is the minimal integrability assumption that guarantees the continuity of mappings). In this situation the mappings need not to be everywhere differentiable and in order to handle the set of nondifferentiability points, we establish for such mappings an analog of the Luzin N-property with respect to lower dimensional Hausdorff content. Finally, we formulate and prove a bridge theorem that includes all the above results as particular cases. As a limiting case in this bridge theorem we also establish a new coarea type formula: if E⊂{x∈Rn:rank∇v(x)≤m}, then ∫EJmv(x)dx=∫RdHn−m(E∩v−1(y))dHm(y). The mapping v is Rd-valued, with arbitrary d, and the formula is obtained without any restrictions on the image v(Rn) (such as m-rectifiability or σ-finiteness with respect to the m-Hausdorff measure). These last results are new also for smooth mappings, but are presented here in the general Sobolev context. The proofs of the results are based on our previous joint papers with J. Bourgain (2013, 2015).

AB - The Morse–Sard theorem requires that a mapping v:Rn→Rm is of class Ck, k>max⁡(n−m,0). In 1957 Dubovitskiĭ generalized this result by proving that almost all level sets for a Ck mapping have Hs-negligible intersection with its critical set, where s=max⁡(n−m−k+1,0). Here the critical set, or m-critical set is defined as Zv,m={x∈Rn:rank∇v(x)k mappings v:Rn→Rd and integers m≤d they proved that the set of m-critical values v(Zv,m) is Hq∘ -negligible for q∘=m−1+. They also established the sharpness of these results within the Ck category. Here we prove that Dubovitskiĭ's theorem can be generalized to the case of continuous mappings of the Sobolev–Lorentz class Wp,1 k(Rn,Rd), p=n/k (this is the minimal integrability assumption that guarantees the continuity of mappings). In this situation the mappings need not to be everywhere differentiable and in order to handle the set of nondifferentiability points, we establish for such mappings an analog of the Luzin N-property with respect to lower dimensional Hausdorff content. Finally, we formulate and prove a bridge theorem that includes all the above results as particular cases. As a limiting case in this bridge theorem we also establish a new coarea type formula: if E⊂{x∈Rn:rank∇v(x)≤m}, then ∫EJmv(x)dx=∫RdHn−m(E∩v−1(y))dHm(y). The mapping v is Rd-valued, with arbitrary d, and the formula is obtained without any restrictions on the image v(Rn) (such as m-rectifiability or σ-finiteness with respect to the m-Hausdorff measure). These last results are new also for smooth mappings, but are presented here in the general Sobolev context. The proofs of the results are based on our previous joint papers with J. Bourgain (2013, 2015).

KW - Coarea formula

KW - Luzin N-property

KW - Morse–Sard theorem

KW - Sobolev–Lorentz mappings

KW - Sobolev-Lorentz mappings

KW - SPACES

KW - PROPERTY

KW - Lnyin N-property

KW - MORSE-SARD THEOREM

KW - SOBOLEV FUNCTIONS

KW - RECTIFIABLE SETS

KW - MAPPINGS

KW - Morse-Sard theorem

UR - http://www.scopus.com/inward/record.url?scp=85005982581&partnerID=8YFLogxK

U2 - 10.1016/j.jfa.2016.10.031

DO - 10.1016/j.jfa.2016.10.031

M3 - Article

AN - SCOPUS:85005982581

VL - 272

SP - 1265

EP - 1295

JO - Journal of Functional Analysis

JF - Journal of Functional Analysis

SN - 0022-1236

IS - 3

ER -

ID: 9067912