Relaxation of p-Growth Integral Functionals Under Space-Dependent Differential Constraints

Davoli, Elisa; Fonseca, Irene

doi:10.1007/978-3-319-75940-1_1

Cited by 4 publications

(3 citation statements)

References 24 publications

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“…The advantage of having a general and systematic approach to these problems turned out to be very useful both in theory [27,29] and applications [68,69]. Other recent works concerning the A-free framework include [4,11,41] and we also refer the reader to the very recent papers [3,21,25,80].…”

Section: Introductionmentioning

confidence: 99%

Quasiconvexity, null Lagrangians, and Hardy space integrability under constant rank constraints

Guerra,

Raiţă

2019

Preprint

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We present a systematic treatment of the theory of Compensated Compactness under Murat's constant rank assumption. We give a short proof of a sharp weak lower semicontinuity result for signed integrands, extending aspects of the results of Fonseca-Müller. The null Lagrangians are an important class of signed integrands, since they are the weakly continuous functions. We show that they are precisely the compensated compactness quantities with Hardy space integrability, thus proposing an answer to a question raised by Coifman-Lions-Meyer-Semmes. Finally we provide an effective way of computing the null Lagrangians associated with a given operator.for some ball B ⊂ R n . Is it the case that they are equivalent? * ⇀ F (v) in H 1 (R n ).

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Section: Introductionmentioning

confidence: 99%

Quasiconvexity, null Lagrangians, and Hardy space integrability under constant rank constraints

Guerra,

Raiţă

2019

Preprint

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“…In the last four decades, the theory was developed much further, having found applications in Continuum Mechanics [31][32][33], Homogenization [11,15,73,74] and Nonlinear Analysis [4,29,42,58,80]. We also refer the reader to the recent papers [3,21,25,85].…”

Section: Introductionmentioning

confidence: 99%

Quasiconvexity, Null Lagrangians, and Hardy Space Integrability Under Constant Rank Constraints

Guerra

Raiță

2022

Arch Rational Mech Anal

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We present a systematic treatment of the theory of Compensated Compactness under Murat’s constant rank assumption. We give a short proof of a sharp weak lower semicontinuity result for signed integrands, extending aspects of the results of Fonseca–Müller. The null Lagrangians are an important class of signed integrands, since they are the weakly continuous functions. We show that they are precisely the compensated compactness quantities with Hardy space integrability, thus proposing an answer to a question raised by Coifman–Lions–Meyer–Semmes. Finally we provide an effective way of computing the null Lagrangians associated with a given operator.

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“…The characterization of A -quasiconvexity has been extended to operators with variable coefficients in [70]. We refer to [38,39] for homogenization results in this purview and to [40] for a corresponding relaxation formula. Applications to the theory of compressible Euler systems, as well as to adaptive image processing and to data-driven finite elasticity were the subject of [25], [41], and [26], respectively.…”

Section: Introductionmentioning

confidence: 99%

Homogenization of integral energies under periodically oscillating differential constraints

Davoli

Fonseca

2016

Calc. Var.

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Relaxation of p-Growth Integral Functionals Under Space-Dependent Differential Constraints

Abstract: A representation formula for the relaxation of integral energiesis obtained, where f satisfies p-growth assumptions, 1 < p < +∞, and the fields v are subjected to space-dependent first order linear differential constraints in the framework of A -quasiconvexity with variable coefficients.

Cited by 4 publications

References 24 publications

Quasiconvexity, null Lagrangians, and Hardy space integrability under constant rank constraints

Quasiconvexity, null Lagrangians, and Hardy space integrability under constant rank constraints

Quasiconvexity, Null Lagrangians, and Hardy Space Integrability Under Constant Rank Constraints

Homogenization of integral energies under periodically oscillating differential constraints

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