Based on these concepts,the theorems of F-interfere surplus-F-interfere degree relation,F-interfere surplus law-F-interfere degree law relation,F-interfere discernible are obtained,F-interfere law discernible are obtained.
利用单向S-粗集对偶给出知识的f-干扰生成与f-干扰规律生成,单向S-粗集对偶的F-干扰生成与F-干扰规律生成的概念,基于这些概念提出了F-干扰盈余与F-干扰度关系定理、F-干扰盈余规律与F-干扰度规律关系定理、F-干扰分辨定理、F-干扰规律分辨定理,给出了F-干扰规律识别准则与应用。
Based on these concepts,the theorems of F-interfere surplus-F-interfere degree relation,F-interfere surplus law-F-interfere degree law relation,F-interfere discernible are obtained,F-interfere law discernible are obtained.
利用单向S-粗集对偶给出知识的f-干扰生成与f-干扰规律生成,单向S-粗集对偶的F-干扰生成与F-干扰规律生成的概念,基于这些概念提出了F-干扰盈余与F-干扰度关系定理、F-干扰盈余规律与F-干扰度规律关系定理、F-干扰分辨定理、F-干扰规律分辨定理,给出了F-干扰规律识别准则与应用。
At the same time , the responding momentum resolution an.
给出主漂移室对动量为1GeV/c的带电粒子的动量分辨率和空间分辨率。
The momentum resolution and ionization energy loss in a high precision central drift chamber used to detect the low momentum charged particles are estimated.
分析估算了用于探测低动量带电粒子的高精度中心漂移室(CDC)的动量分辨率与电离能损,对低动量带电粒子的动量测量以及利用dE/dx识别粒子的能力进行了讨论,并探讨了CDC对两个典型过程的探测性能。
We simulated the Momentum resolution of Cental Drift Chamber (CDC) for Beijing τ-Charm factory from Multiscattering using GEANT and got the Momentum resolution of 0.
本文用探测器描述和模拟工具GEANT对BTCF中心漂移室中多次散射对粒子动量分辨率的贡献进行了模拟,得到0。