Eduardo Garibaldi, Samuel Petite, Philippe Thieullen
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引用次数: 0
摘要
离散弱 KAM 解是一个势函数,它突出了与周期性或准周期性基底相互作用的无限原子链在零温时的基态构型。众所周知,周期性基底存在弱 KAM 解,如 Frenkel-Kontorova 模型。在几乎周期的情况下,弱解可能不存在,如在静态遍历汉密尔顿-雅各比方程理论中(它们被称为校正器)。对于线性重复的准周期基底,我们证明,满足扭转条件和非退化特性的等变相互作用总是承认亚线性弱 KAM 解。此外,我们还根据内在优选阶数对所有可能的弱 KAM 解类型和校准配置进行了分类。即使在经典周期情况下,优选阶的概念也是全新的。
Classification of Discrete Weak KAM Solutions on Linearly Repetitive Quasi-Periodic Sets
A discrete weak KAM solution is a potential function that highlights the ground state configurations at zero temperature of an infinite chain of atoms interacting with a periodic or quasi-periodic substrate. It is well known that weak KAM solutions exist for periodic substrates as in the Frenkel–Kontorova model. Weak solutions may not exist in the almost periodic setting as in the theory of stationary ergodic Hamilton–Jacobi equations (where they are called correctors). For linearly repetitive quasi-periodic substrates, we show that equivariant interactions that fulfill a twist condition and a non-degenerate property always admit sublinear weak KAM solutions. We moreover classify all possible types of weak KAM solutions and calibrated configurations according to an intrinsic prefered order. The notion of prefered order is new even in the classical periodic case.
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