用随机模拟方法研究了化学混沌模型的介观动力学。
The mesoscopic dynamics of a chemical chaos model was studied by stochastic simulations.
本文用随机模拟方法研究了一化学混沌模型的介观动力学。
The mesoscopic dynamics of a chemical chaos model was studied by stochastic simulations in this paper .
介绍了两种较为成熟的模拟方法:介观动力学和耗散颗粒动力学。
Two mesoscale simulation methods, mesodyn and dissipative particle dynamics are introduced.
以生命和表面催化体系为对象,研究了介观化学体系中内涨落对体系非线性动力学行为的调控作用。
The effect of internal noise on mesoscopic chemical dynamics is studied using stochastic simulation and chemical Langevin equations, with special focus on surface catalytic systems and life systems.
主要通过考虑介观电容的耦合能,对离散电荷介观LC电路中的电荷与电流的动力学行为进行了研究。
This paper mainly investigates dynamic behavior of charge and current in a mesoscopic LC circuit with discrete charge by considering coupling energy of the mesoscopic capacitor.
研究了介观LC电路在外加电源作用下,系统量子态随时间的演化,分析了实现压缩态的动力学过程。
The evolution of quantum state with time in the time-dependent mesoscopic LC circuit containing source is studied in this paper.
通过将热场动力学推广到含时体系,研究了有限温度下介观含时LC电路中的量子涨落。
By extending the thermal field dynamics to the time dependent system, quantum fluctuations of the time dependent mesoscopic LC electric circuit at finite temperature were studied.
通过将热场动力学推广到含时体系,研究了有限温度下介观含时LC电路中的量子涨落。
By extending the thermal field dynamics to the time dependent system, quantum fluctuations of the time dependent mesoscopic LC electric circuit at finite temperature were studied.
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