与绝热活塞问题有关的台球模型中绝热不变性的不寻常特性

Joshua Skinner, Anatoly Neishtadt
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引用次数: 0

摘要

我们考虑两个大质量粒子沿直线运动。较轻的粒子在较重的粒子和静止壁之间来回弹跳,所有碰撞都是理想的弹性碰撞。众所周知,如果较轻粒子的运动速度比较重粒子的运动速度快得多,并且粒子的动能是同阶的,那么较轻粒子的速度与较重粒子和墙之间距离的乘积就是绝热不变量:它的值在沿周期内保持近似恒定。我们证明,在较轻粒子与壁碰撞时计算出的这个绝热不变量的值是一个运动常数(即{一个精确的绝热不变量})。另一方面,粒子碰撞时的绝热不变量值会随着每次碰撞缓慢地单调衰减。我们所考虑的模型是经典绝热活塞问题的高度简化版本,其中较轻的粒子代表气体粒子,较重的粒子代表活塞。
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Unusual Properties of Adiabatic Invariance in a Billiard Model Related to the Adiabatic Piston Problem
We consider the motion of two massive particles along a straight line. A lighter particle bounces back and forth between a heavier particle and a stationary wall, with all collisions being ideally elastic. It is known that if the lighter particle moves much faster than the heavier one, and the kinetic energies of the particles are of the same order, then the product of the speed of the lighter particle and the distance between the heavier particle and the wall is an adiabatic invariant: its value remains approximately constant over a long period. We show that the value of this adiabatic invariant, calculated at the collisions of the lighter particle with the wall, is a constant of motion (i.e., {an exact adiabatic invariant}). On the other hand, the value of this adiabatic invariant at the collisions between the particles slowly and monotonically decays with each collision. The model we consider is a highly simplified version of the classical adiabatic piston problem, where the lighter particle represents a gas particle, and the heavier particle represents the piston.
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