摘要
研究了有限的多自由度耦合哈密顿系统能量耗散过程的动力学问题.通过数值模拟,实现有关自由度的能量耗散过程,采用功率谱方法研究有关系统运动中的坐标q(t)或动量p(t)的演化过程.结果发现在有关系统的能量耗散过程中,有关自由度运动的频率成分向高频和低频方向都有明显展宽,随着无关系统自由度增多,展宽明显增加;低频成分比较稳定,高频成分随着时间的演变逐渐减少.
Dynamical problems about energy dissipation in a finite multi-degree of freedom Hamihonian system are studied. The energy dissipation in the relevant system is realized by numerical simulation. By employing power spectrum analysis on q (t) or p (t) of the motion in the relevant system, it is found that during the dissipative process, distribution of the power spectral density about the motion extends to both lower and higher frequencies. The more irrelevant degrees of freedom are, the broader the distribution extends. Higher frequencies decrease as time evolves but there are no remarkable changes for lower frequency components.
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2005年第12期5602-5608,共7页
Acta Physica Sinica
基金
国家自然科学基金(批准号:10375016
10474018)
河北省自然科学基金(批准号:A200400005)资助的课题.~~
关键词
有限系统
能量耗散
有关自由度
功率谱
finite system, energy dissipation, relevant degree of freedom, power spectrum
作者简介
赵同军, E-mail:zhaotj66@eyou.com
