Marco Cicalese scite author profile

We study the asymptotic behavior, as the mesh size ε tends to zero, of a general class of discrete energies defined on functions u : α ∈ εZ N ∩ Ω → u(α) ∈ R d of the formand satisfying superlinear growth conditions. We show that all the possible variational limits are defined on W 1,p (Ω; R d ) of the local typeWe show that, in general, f may be a quasi-convex nonconvex function even if very simple interactions are considered. We also treat the case of homogenization, giving a general asymptotic formula that can be simplified in many situations (e.g., in the case of nearest neighbor interactions or under convexity hypotheses).

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Phase and anti-phase boundaries in binary discrete systems: a variational viewpoint

Alicandro¹,

Braides²,

Cicalese³

2006

187

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A Selection Principle for the Sharp Quantitative Isoperimetric Inequality

Cicalese

Leonardi

2012

Arch Rational Mech Anal

158

179

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We introduce a new variational method for the study of stability in the isoperimetric inequality. The method is quite general as it relies on a penalization technique combined with the regularity theory for quasiminimizers of the perimeter. Two applications are presented. First we give a new proof of the sharp quantitative isoperimetric inequality in R n . Second we positively answer to a conjecture by Hall concerning the best constant for the quantitative isoperimetric inequality in R 2 in the small asymmetry regime.2000 Mathematics Subject Classification. 52A40 (28A75, 49J45).

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Integral Representation Results for Energies Defined on Stochastic Lattices and Application to Nonlinear Elasticity

Alicandro

Cicalese

Gloria

2010

Arch Rational Mech Anal

112

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This article is devoted to the study of the asymptotic behavior of a class of energies defined on stochastic lattices. Under polynomial growth assumptions, we prove that the energy functionals Fε stored in the deformation of an ε-scaling of a stochastic lattice Γ-converge to a continuous energy functional when ε goes to zero. In particular, the limiting energy functional is of integral type, and deterministic if the lattice is ergodic. We also generalize to systems and nonlinear settings well-known results on stochastic homogenization of discrete elliptic equations. As an application of the main result, we prove the convergence of a discrete model for rubber towards the nonlinear theory of continuum mechanics. We finally address some mechanical properties of the limiting models, such as frame-invariance, isotropy and natural states.

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Variational equivalence between Ginzburg-Landau, XY spin systems and screw dislocations energies

Alicandro¹,

Cicalese²,

Ponsiglione³

2011

Indiana Univ. Math. J.

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We introduce and discuss discrete two-dimensional models for XY spin systems and screw dislocations in crystals. We prove that, as the lattice spacing ε tends to zero, the relevant energies in these models behave like a free energy in the complex Ginzburg-Landau theory of superconductivity, justifying in a rigorous mathematical language the analogies between screw dislocations in crystals and vortices in superconductors. To this purpose, we introduce a notion of asymptotic variational equivalence between families of functionals in the framework of Γ-convergence. We then prove that, in several scaling regimes, the complex Ginzburg-Landau, the XY spin system and the screw dislocation energy functionals are variationally equivalent. Exploiting such an equivalence between dislocations and vortices, we can show new results concerning the asymptotic behavior of screw dislocations in the | log ε| 2 energetic regime.

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Marco Cicalese

A General Integral Representation Result for Continuum Limits of Discrete Energies with Superlinear Growth

Phase and anti-phase boundaries in binary discrete systems: a variational viewpoint

A Selection Principle for the Sharp Quantitative Isoperimetric Inequality

Integral Representation Results for Energies Defined on Stochastic Lattices and Application to Nonlinear Elasticity

Variational equivalence between Ginzburg-Landau, XY spin systems and screw dislocations energies

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