Lansel Steven, Porter Mason A, Bunimovich Leonid A
School of Electrical and Computer Engineering and School of Mathematics, Georgia Institute of Technology, Atlanta, Georgia 30332-0160, USA.
Chaos. 2006 Mar;16(1):013129. doi: 10.1063/1.2147740.
We study the dynamics of one-particle and few-particle billiard systems in containers of various shapes. In few-particle systems, the particles collide elastically both against the boundary and against each other. In the one-particle case, we investigate the formation and destruction of resonance islands in (generalized) mushroom billiards, which are a recently discovered class of Hamiltonian systems with mixed regular-chaotic dynamics. In the few-particle case, we compare the dynamics in container geometries whose counterpart one-particle billiards are integrable, chaotic, and mixed. One of our findings is that two-, three-, and four-particle billiards confined to containers with integrable one-particle counterparts inherit some integrals of motion and exhibit a regular partition of phase space into ergodic components of positive measure. Therefore, the shape of a container matters not only for noninteracting particles but also for interacting particles.
我们研究了各种形状容器中单粒子和少粒子台球系统的动力学。在少粒子系统中,粒子与边界以及相互之间发生弹性碰撞。在单粒子情形下,我们研究了(广义)蘑菇台球中共振岛的形成与破坏,蘑菇台球是最近发现的一类具有混合规则 - 混沌动力学的哈密顿系统。在少粒子情形下,我们比较了容器几何形状的动力学,其对应的单粒子台球分别是可积的、混沌的和混合的。我们的一个发现是,限制在具有可积单粒子对应物的容器中的两粒子、三粒子和四粒子台球继承了一些运动积分,并表现出相空间到正测度遍历分量的规则划分。因此,容器的形状不仅对非相互作用粒子很重要,对相互作用粒子也很重要。