The dielectric barrier surface discharge process is simulated using Poisson's equation and drift-diffusion equation and the distribution history of electron, ion and electric field is gained.
采用泊松方程和漂移-扩散方程对介质阻隔面放电进行数值模拟,得到了电子、离子以及电场分布随时间的变化。
This paper introduces the way to calculate the distribution of electric field strength on the plate surface. And it also analyzes the factors influencing the result of numerical solution.
介绍了理论求解极板表面电场强度分布的方法,并对影响其计算结果的因素进行了分析。
On assumption that the surface of the conductive body is uniformly charged, the method for evaluation of the electric field and potential distribution is insignificant in practice.
假设带电体表面均匀带电,运用积分求电势、电场分布的方法,实际意义不大。
Ions accelerated by the electric field in the sheath form a shape of beam and a flux distribution on the target surface, which are strongly dependent on the applied voltage.
离子被鞘层中的加速电场加速,以束流的形式注入到工件表面,而束流分布的情况与作用电压有着十分密切的关系。
Ions accelerated by the electric field in the sheath form a shape of beam and a flux distribution on the target surface, which are strongly dependent on the applied voltage.
离子被鞘层中的加速电场加速,以束流的形式注入到工件表面,而束流分布的情况与作用电压有着十分密切的关系。
应用推荐