蒙特卡罗方法
次级电子
物理
散射
产量(工程)
电子
计算物理学
统计物理学
二次排放
核物理学
光学
数学
统计
热力学
作者
Stuart A. Rice,John Verboncoeur
标识
DOI:10.18429/jacow-ipac2015-wepty062
摘要
Furman's seconday electron yield model is commonly used for the simulation of multipactor in accelerating cavities and other resonant structures. While accurate, the stochastic model requires many Monte Carlo simulations in order to characterize susceptibility to multipactor. This paper generalizes our previous research in characterizing a reduced-order Furman model, in which we replace the stochastic Furman model with a deterministic model based upon the Furman model's underlying statistics. Favorable comparisons between the full Furman model and the reduced-order Furman model are shown for multipactor simulations in a coaxial cavity, and the results are expected to generalize to other geometries.
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