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1)  band intensity
谱带强度
2)  Spectral Line Intensity
谱线强度
1.
Based on the perturbation theory,the influences of the Fermi resonance interaction between the two and three vibronic levels on the level energy,wavefunction,and the spectral line intensity are investigated in detail respectively.
本文考虑了分子振动非谐性所引起的振动能级之间的费米共振相互作用,利用定态微扰论,从理论上系统地分析了两态和三态之间的费米共振相互作用对能级能量、态函数和谱线强度的影响,在三阶非谐性近似下,得到了计及费米共振相互作用在内的能级能量、态函数和谱线强度的数学解析表达式。
2.
It is shown that excitation temperature increases with increasing microwave power,and decreases with increasing gas flux,the spectral line intensity initially increases with increasing microwave power,decreases at 550 W and 700 W,and then increases again.
结果显示:随气体流量增加Texc降低;随着微波功率的增加Texc升高;谱线强度随着功率的增加而上升,在550 W及700 W处开始降低继而又上升,此点是制备金刚石膜的功率关键点。
3)  Spectral intensity
谱线强度
4)  spectral optical power
谱线强度
1.
In this paper,acoefficient correction method is presented to improve the code of spectral optical power evaluation,which offers a solution for improving the accuracy of material spectral half-quantitative analysis.
本文提出系数校正法 ,完善谱线强度评定规范 ,对提高材料看谱半定量分析准确度提出一种解决方
5)  Spectral intensity
光谱强度
6)  spectral intensity
谱强度
1.
The relations between spectral intensity and parameters including the mean value of maximum ground accelerations,earthquake intensity and earthquake level, are derived.
结合我国现行抗震规范的场地划分,提出了一种将非平稳随机地震动等效为平稳随机过程的地震动功率谱模型,导出了谱强度与最大地面运动加速度均值、地震烈度和地震水准的关系,并考虑了部分相干效应、行波效应等空间相关特性的影响。
2.
the corresponding parameters of the pow- er spectral density function of the filtered Gaussian white noise process(Kanai-Tajing spec- trum) are determined, and the relations between Kanai-Tajimi spectral intensity and the mean value of maximum ground accelerations, or the earthquake intensity and the maximum earthquake affecting coefficient are derived.
根据我国抗震规范《建筑抗震设计规范》(GBJll—89)将建筑场地分为4类的事实,确定了对应4类建筑场地的过滤Gauss白噪声过程功率谱密度函数(Kanai—Tajimi谱)的参数值,并导出了Kanai—Tajimi谱的谱强度与最大地面运动加速度均值、地震烈度及地震影响系数最大值的关系。
补充资料:谱带强度
分子式:
CAS号:

性质:即谱带下所包含面积的积分强度。

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