计算结果表明,电导图谱及其共振峰的劈裂依赖于量子点的几何尺寸、量子点的数目及量子点中势的大小。
The results indicate that the conductance and the resonant splitting are dependent on the structural dimension, the number of quantum dots and the strength of negative potential.
共振频率由物体的几何形状,重量以及结构决定。
Resonant frequencies are determined by the geometry, weight and structure of the object.
分析温度、地基系数、阻尼、几何参数、激励等对系统主共振的影响。
Analysised the impact of temperature, soil coefficient, damping and geometric parameters of the system, etc. on the main resonance.
在模态分析的基础上,采用几何非线性有限元的分析方法,对悬索式管桥进行了横向风共振分析。
On the basis of the modal analysis, the nonlinear finite element is used to analyze the dynamic response of suspension pipe bridge to cross wind excitation.
核磁共振(nmr)谱的研究可以获得分子几何结构,分子中原子的成键情况以及相互作用等重要结构信息。
The structural information of molecular geometric structures and bonds between atoms can be obtained by study on nuclear magnetic resonance (NMR).
还提出一种解析模型来建立共振频率与共振器几何参数的关系式,该式己为现有的一些实验结果所证实。
An analytical model is presented to formulate the relation between the resonance frequency and geometric parameters of the resonator. The formula deduced by the model was ver...
还提出一种解析模型来建立共振频率与共振器几何参数的关系式,该式己为现有的一些实验结果所证实。
An analytical model is presented to formulate the relation between the resonance frequency and geometric parameters of the resonator. The formula deduced by the model was verified in some exp...
在模态分析的基础上,采用几何非线性有限元的分析方法,对悬索式管桥进行了横向风共振分析。
On the basis of the modal analysis, the nonlinear finite element is used to analyze the dynamic response of suspension pipe bridge to cross wind excitation. The result show...
在模态分析的基础上,采用几何非线性有限元的分析方法,对悬索式管桥进行了横向风共振分析。
On the basis of the modal analysis, the nonlinear finite element is used to analyze the dynamic response of suspension pipe bridge to cross wind excitation. The result show...
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