We consider energies defined as the Dirichlet integral of curves taking values in fast-oscillating manifolds converging to a linear subspace. We model such manifolds as subsets of Rm + m′ described by a constraint (xm + 1, ,xm′) = δ (x1/ϵ,xm/ϵ) where ϵ is the period of the oscillation, δ its amplitude and its profile. The interesting case is ϵ<<δ<< 1, in which the limit of the energies is described by a Finsler metric on Rm which is defined by optimizing the contribution of oscillations on each level set { = c}. The formulas describing the limit mix homogenization and convexification processes, highlighting a multi-scale behaviour of optimal sequences. We apply these formulas to show that we may obtain all (homogeneous) symmetric Finsler metrics larger than the Euclidean metric as limits in the case of oscillating surfaces in R3.
Homogenization of metrics in oscillating manifolds / Braides, A.; Cancedda, A.; Piat, V. C.. - In: ESAIM. COCV. - ISSN 1292-8119. - 23:3(2017), pp. 889-912. [10.1051/cocv/2016018]
Homogenization of metrics in oscillating manifolds
Braides A.;
2017-01-01
Abstract
We consider energies defined as the Dirichlet integral of curves taking values in fast-oscillating manifolds converging to a linear subspace. We model such manifolds as subsets of Rm + m′ described by a constraint (xm + 1, ,xm′) = δ (x1/ϵ,xm/ϵ) where ϵ is the period of the oscillation, δ its amplitude and its profile. The interesting case is ϵ<<δ<< 1, in which the limit of the energies is described by a Finsler metric on Rm which is defined by optimizing the contribution of oscillations on each level set { = c}. The formulas describing the limit mix homogenization and convexification processes, highlighting a multi-scale behaviour of optimal sequences. We apply these formulas to show that we may obtain all (homogeneous) symmetric Finsler metrics larger than the Euclidean metric as limits in the case of oscillating surfaces in R3.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
