无取向泛函零态的紧致性与结构

IF 1.1 2区数学 Q1 MATHEMATICS

Journal of the Institute of Mathematics of Jussieu Pub Date : 2021-12-09 DOI:10.1017/s1474748023000075

M. Goldman, B. Merlet, Marc Pegon, S. Serfaty

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引用次数: 2

摘要

在一些涉及平面上无取向指向场的模式形成模型的激励下，我们研究了Aviles-Giga泛函的无取向对应族。我们引入了一个非线性的$\operatorname {\ mathm {curl}}$算子，用于这种无方向的向量场，以及我们称之为“三角熵”的偶熵族。利用这些工具，我们展示了两个主要定理，它们与经典阿维勒-千兆能文献中的一些结果相平行。第一个是具有均匀有界能量的构型序列的紧性结果。二是零态的完整表征，即能量趋于0时的极限构型。这些是远离局部有限点的利普希茨连续的，在这些点附近，它们形成了旋涡图案或1/2度的偏差。这个证明是基于正则理论和来自金兹堡-朗道能量研究的技术的结合。我们的方法在经典的Aviles-Giga背景下提供了替代证明。

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COMPACTNESS AND STRUCTURE OF ZERO-STATES FOR UNORIENTED AVILES–GIGA FUNCTIONALS

Motivated by some models of pattern formation involving an unoriented director field in the plane, we study a family of unoriented counterparts to the Aviles–Giga functional. We introduce a nonlinear $\operatorname {\mathrm {curl}}$ operator for such unoriented vector fields as well as a family of even entropies which we call ‘trigonometric entropies’. Using these tools, we show two main theorems which parallel some results in the literature on the classical Aviles–Giga energy. The first is a compactness result for sequences of configurations with uniformly bounded energies. The second is a complete characterization of zero-states, that is, the limit configurations when the energies go to 0. These are Lipschitz continuous away from a locally finite set of points, near which they form either a vortex pattern or a disclination with degree 1/2. The proof is based on a combination of regularity theory together with techniques coming from the study of the Ginzburg–Landau energy. Our methods provide alternative proofs in the classical Aviles–Giga context.

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来源期刊

Journal of the Institute of Mathematics of Jussieu 数学-数学

CiteScore

2.40

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of the Institute of Mathematics of Jussieu publishes original research papers in any branch of pure mathematics; papers in logic and applied mathematics will also be considered, particularly when they have direct connections with pure mathematics. Its policy is to feature a wide variety of research areas and it welcomes the submission of papers from all parts of the world. Selection for publication is on the basis of reports from specialist referees commissioned by the Editors.