Recent results on non-convex functionals ...
Document type :
Article dans une revue scientifique: Article original
Permalink :
Title :
Recent results on non-convex functionals penalizing oblique oscillations
Author(s) :
Goldman, Michael [Auteur]
Laboratoire Jacques-Louis Lions [LJLL]
Merlet, Benoît [Auteur]
Reliable numerical approximations of dissipative systems [RAPSODI]
Laboratoire Jacques-Louis Lions [LJLL]
Merlet, Benoît [Auteur]

Reliable numerical approximations of dissipative systems [RAPSODI]
Journal title :
Rendiconti del Seminario Matematico
Publisher :
Università degli studi di Torino / Politecnico di Torino
Publication date :
2019
ISSN :
0373-1243
HAL domain(s) :
Mathématiques [math]/Equations aux dérivées partielles [math.AP]
English abstract : [en]
The aim of this note is to review some recent results on a family of functionals penalizing oblique oscillations. These functionals naturally appeared in some varia-tional problem related to pattern formation and are ...
Show more >The aim of this note is to review some recent results on a family of functionals penalizing oblique oscillations. These functionals naturally appeared in some varia-tional problem related to pattern formation and are somewhat reminiscent of those introduced by Bourgain, Brezis and Mironescu to characterize Sobolev functions. We obtain both qualitative and quantitative results for functions of finite energy. It turns out that this problem naturally leads to the study of various differential inclusions and has connections with branched transportation models. We review in this paper some recent results obtained in [GM19a, GM19b, GM19c] on non-convex functionals penalizing oblique oscillations. We are mainly interested in both qualitative and quantitative rigidity results for functions with finite energy. We also obtain concentration and rectifiability properties of the corresponding 'defect' measures. We will focus here on the most important results and sacrifice generality for clarity. In particular, we will restrict ourselves to a periodic setting to avoid boundary effects. 1 The energy For n 1 , n 2 ≥ 1 and n = n 1 + n 2 , we decompose R n = X 1 ⊕ X 2 with X 1 ⊥ X 2 and n l = dim X l and consider the n dimensional torus T n := (R/Z) n = T n 1 ⊕ T n 2. For x ∈ R n we write x = x 1 + x 2 its decomposition in X 1 ⊕ X 2. For (x, z) ∈ T n × R n , we introduce the notation Du(x, z) := u(x + z) − u(x) for the discrete derivative. We also fix a radial non-negative kernel 1 ρ ∈ L 1 (R n , R +) with R n ρdx = 1, and supp ρ ⊂ B 1 .Show less >
Show more >The aim of this note is to review some recent results on a family of functionals penalizing oblique oscillations. These functionals naturally appeared in some varia-tional problem related to pattern formation and are somewhat reminiscent of those introduced by Bourgain, Brezis and Mironescu to characterize Sobolev functions. We obtain both qualitative and quantitative results for functions of finite energy. It turns out that this problem naturally leads to the study of various differential inclusions and has connections with branched transportation models. We review in this paper some recent results obtained in [GM19a, GM19b, GM19c] on non-convex functionals penalizing oblique oscillations. We are mainly interested in both qualitative and quantitative rigidity results for functions with finite energy. We also obtain concentration and rectifiability properties of the corresponding 'defect' measures. We will focus here on the most important results and sacrifice generality for clarity. In particular, we will restrict ourselves to a periodic setting to avoid boundary effects. 1 The energy For n 1 , n 2 ≥ 1 and n = n 1 + n 2 , we decompose R n = X 1 ⊕ X 2 with X 1 ⊥ X 2 and n l = dim X l and consider the n dimensional torus T n := (R/Z) n = T n 1 ⊕ T n 2. For x ∈ R n we write x = x 1 + x 2 its decomposition in X 1 ⊕ X 2. For (x, z) ∈ T n × R n , we introduce the notation Du(x, z) := u(x + z) − u(x) for the discrete derivative. We also fix a radial non-negative kernel 1 ρ ∈ L 1 (R n , R +) with R n ρdx = 1, and supp ρ ⊂ B 1 .Show less >
Language :
Anglais
Peer reviewed article :
Oui
Audience :
Internationale
Popular science :
Non
Collections :
Source :
Submission date :
2025-01-24T17:02:37Z
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