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Strong Stability for the Wulff Inequality with a Crystalline Norm

Let K be a convex polyhedron and ℱ its Wulff energy, and let CK denote the set of convex polyhedra close to K whose faces are parallel to those of K. We show that, for sufficiently small ε, all ε‐minimizers belong to CK. As a consequence of this result we obtain the following sharp stability inequal...

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Bibliographic Details
Published in:Communications on pure and applied mathematics 2022-02, Vol.75 (2), p.422-446
Main Authors: Figalli, Alessio, Zhang, Yi Ru‐Ya
Format: Article
Language:English
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Summary:Let K be a convex polyhedron and ℱ its Wulff energy, and let CK denote the set of convex polyhedra close to K whose faces are parallel to those of K. We show that, for sufficiently small ε, all ε‐minimizers belong to CK. As a consequence of this result we obtain the following sharp stability inequality for crystalline norms: There exist γ = γ(K, n) > 0 and σ = σ(K, n) > 0 such that, whenever ∣E ∣  =  ∣ K∣ and ∣EΔK ∣  ≤ σ, thenℱE−ℱKa≥γ∣EΔKa∣forsomeKa∈CK. In other words, the Wulff energy ℱ grows very fast (with power 1) away from CK. The set Ka∈CK appearing in the formula above can be informally thought as a sort of “projection” of E onto CK. Another corollary of our result is a very strong rigidity result for crystals: For crystalline surface tensions, minimizers of ℱ(E) + ∫Eg with small mass are polyhedra with sides parallel to the those of K. In other words, for small mass, the potential energy cannot destroy the crystalline structure of minimizers. This extends to arbitrary dimensions a two‐dimensional result obtained in [9]. © 2020 Wiley Periodicals LLC.
ISSN:0010-3640
1097-0312
DOI:10.1002/cpa.21928