field amplitude meaning in Chinese
场幅度
躇度
Examples
- Moreover , for a fixed q , the value of the critical temperature depends on the field amplitude
并且当q一定时,临界温度的大小依赖于外场幅度的变化。 - 2 . second , the investigation of wave propagation characteristic in periodically magnetized uniformity plasma is done , in light of numerical calculation , to analyze the effect of additional magnetic field amplitude , background magnetic field and plasma density changing on the propagation characteristic
2 .对电磁波在周期磁化均匀等离子体中的传播特性进行了研究,通过数值计算分析了不同外加磁场幅值,背景磁场以及不同等离子体密度对波传播特性的影响 - 4 . finally , the investigation of wave propagation characteristic in round waveguide filled uniformity plasma periodically magnetized is done , by numerical calculation , to analyze the effect on the propagation characteristic when additional magnetic field amplitude , background magnetic field and plasma density change
4 .研究了电磁波在填充周期磁化均匀等离子体金属圆波导中的传输特性,推导出该周期慢波结构的色散方程,通过数值计算,绘出了色散曲线图 - After a long time evolution , the system finally reaches a stable state at which the magnetization and the equal time spin - pair correlation are periodic oscillating functions with the equal period as the external field . numerical simulation shows : when the amplitude of external filed is large , there exits a particular temperature at which the average magnetization and the average spin - pair correlation are almost unaltered with various field amplitude ( i . e . magnetic susceptibility is zero ) , and the particular temperature depends on the number of the spin states , cutting down with q increasing
由数值模拟得到:当外场幅度较大时,存在一个特殊的温度点(我们称之t ) ,在这个温度点,系统的平均磁化强度和平均等时自旋对关联随外场幅度的变化几乎保持不变(即磁化率为零) ,并且这个温度的大小依赖于自旋态数目q的变化, q越大,这个温度就越小;而当外场较小时,确信系统存在有限大小的临界温度 - Usually , hpm devices working in the high current and large field amplitude state , after the field reaches saturation , the nonlinear effects will become extremely strong so that the intrinsic nonlinear phenomena ( for example limit cycle oscillation and chaotic behavior ) of the system occur . these nonlinear behaviors directly influence the output characteristic of the devices
在通常情况下,高功率微波源器件都工作在大电流和强场工作状态,尤其在场达到饱和以后,系统的非线性效应将变得非常明显,非线性系统所特有的一些现象(如,极限环型振荡和混沌行为)将出现,这些非线性现象直接影响器件的各种输出特性。