The risetime of electrical pulse and the delay-time between the linear model and nonlinear model are calculated in this paper, and the results match the experimental measure.
论文中利用建立的物理模型对开关输出电脉冲的上时间,以及开关线性波形和非线性波形之间的延迟时间进行计算,结果与实验测量数据相吻合。
参考来源 - 用半绝缘GaAs光电导开关产生超短电磁脉冲若干问题研究·2,447,543篇论文数据,部分数据来源于NoteExpress
During last decades, with the emergence of computer, applying computer to simulate complex flow area has become an important experimental measure.
近几十年来,随着电子计算机的出现,应用计算机来模拟复杂的流场已成为一种重要的实验手段。
The risetime of electrical pulse and the delay-time between the linear model and nonlinear model are calculated in this paper, and the results match the experimental measure.
论文中利用建立的物理模型对开关输出电脉冲的上时间,以及开关线性波形和非线性波形之间的延迟时间进行计算,结果与实验测量数据相吻合。
So experimental, if you want to find out these rates, you can measure their equilibrium concentrations.
那么从实验的角度,如果你想找出这些速率,你可以测量它们的平衡浓度。
When we do experiments, each group of three has an experimental setup to measure the phenomenon.
当我们做实验的时候,每个三人小组建立实验设备,来测量观察的现象。
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