1.
STUDY OF THE ESCAPE PROBLEM OF A BROWNIAN PARTICLE IN A POTENTIAL WELL
在势阱中的布朗粒子逃逸问题的研究
2.
Effect of internal noise on nonlinear relaxation for brownian particle
内噪声对布朗粒子非线性驰豫的影响
3.
Monte-Carlo Simulation of the Undamped Brownian Particle's Two-dimensional Motion
无阻尼布朗粒子二维运动的Monte-Carlo模拟
4.
Brownian Ratchet with a Position-dependent Two-state Random Perturbation
具有随机两态势的布朗粒子摇摆棘齿模型
5.
BROWNIAN MOTION IN A PERIODIC POTENTIAL DRIVEN BY COLORED NOISE
色燥声驱动的布朗粒子在周期势场中的运动
6.
The Steady Probabilty Current of Brownian Particles Driven by Noise in Asymmetry Periods Potential
不对称周期势中噪声诱导的布朗粒子几率流
7.
For the single Brownian particle case, we give unified perturbative analytic expressions valid for both large and small friction cases.
对于单个布朗粒子的情形,我们给出了统一的微扰解析解,它对大、小阻尼情形均适用。
8.
Lattice Boltzmann model for particle Brownian motion
模拟颗粒布朗运动的格子Boltzmann模型
9.
The Brownian Dynamic Simulation of Two Colloidal Particles in an External Potential
受束缚的两个胶体粒子的布朗动力学模拟
10.
Brown had noticed that tiny particles, such as those inside pollen grains, move haphazardly[ see box on opposite page].
布朗注意到微小的粒子,如花粉中的微粒,会随意地运动(48页〈拳伺候〉。
11.
The path of a particle in Brownian motion is erratic and frequently changes direction.
一个布朗运动粒子的路径是不规则的,并且常常改变方向。
12.
This simple result is at the root of the arithmetic and algebra of Brownian motion and particle diffusion.
这个简单的结果是粒子扩散和布朗运动的算术和代数基
13.
Brownian Motion of a Charged Test Particle Near a Dielectric Half-space or a Perfectly Reflecting Plane;
均匀介质或全反射平面边界附近荷电试验粒子的布朗运动
14.
Diffusion Properties of Interacting Brownian Particles in Concentrated Colloidal suspensions
浓悬浮液中相互作用布朗运动粒子的扩散特性研究
15.
Application of fractional Brownian motion particle tracking model to coastal contaminant dispersion
加速分数型布朗运动粒子追踪模型在水面污染扩散中的应用
16.
Brownian Dynamics Simulation of the Influence of Hydrodynamic Interaction on Particle Coagulation
流体动力学作用对粒子聚集影响的布朗动力学模拟
17.
A Brownian Dynamics Simulation to Study the Influence of Gravity on the Process of Particle Coagulation in Suspension
重力对溶液悬浮粒子聚集过程影响的布朗动力学模拟
18.
These devices exploit the fact that Brownian motion displaces small particles farther than it does big ones.
这些元件利用的原理是,布朗运动让较小的粒子移动得比大的粒子远。