耦合频率用英语怎么说，耦合频率的英文翻译

词语导航

基本信息

词语：耦合频率

繁体：耦合頻率

拼音：ǒu hé pín shuài

英语翻译

【电】 coupling freqency

分词翻译

耦合的英语翻译：

coupling
【计】 coupling

频率的英语翻译：

frequency
【计】 F; frequency
【化】 frequency
【医】 frequency
【经】 frequency

翻译例句

1. 电磁耦合频率效应特性曲线在双对数座标纸上具有较好的分段线性化特点。

The response curves of frequency effects of EM coupling in logarithmiccoordinates have distinctive fe…

2. 从负能空间电荷波与电磁波耦合的物理图像出发推导了喇曼散射模式自由电子激光器耦合频率的解析表达式。

Analytical expressions of coupling frequencies of Raman free-electron lasers are deduced based on the physical image of the coupling between negative-energy space-charge wave and EM wave.

3. 耦合使每个离子都具有了两个电子的特征频率。

Coupling associates each ion with both characteristic frequencies.

4. 具体就是运用了一个叫做谐振耦合的现象。在此现象中，以相同频率随着电子频率一起振动的金属线圈能够高效的传输能量。

Specifically, it exploits a phenomenon called resonant coupling, in which metal coils that resonate at the same electrical frequency can exchange energy particularly efficiently.

5. 利用等效弹性法分析了压电矩形共振器的二维耦合振动，导出了振子共振频率的解析表达式。

Based on the equivalent elasticity method, the plane coupling vibration of a rectangular piezoelectric ceramic plate was studied and the resonant frequency equation was derived out.

6. 发现在二维耦合腔结构中，可以实现信号自泵浦和泵浦-信号两种类型的双稳态开关，且后者具有使泵浦和信号在频率和空间相分离的优点。

It shows that the self-pumping type and pump-probe types bistable switching can both be realized in the same structure, and the latter can separate the pump and signal in frequency and space.

7. 强耦合极化子的振动频率和声子平均数随有效受限长度的减小而迅速增大。

The Vibration frequency and the mean number of phonon of the strong coupling polaron in parabolic quantum wires will strongly increase with decreasing the effective confinement length.

8. 本文还讨论了弹性耦合和惯性耦合对共振频率的影响。

The effect of the elastic and inertia coupling on the resonance frequency is also discussed.

9. 在由27个组合振子构成的阵列中。居间频率范围内出现一个轴向和径向的强烈耦合模。

In an array consists of 27 combination vibrators, a strong coupling mode of axial and radial vibrations presents in the intermediate frequency range.

10. 如果该封装波导谐振模恰好位于电路工作频率范围之内，电路与封装谐振模间的耦合将干扰电路的工作。

If the package resonant modes right within the operation frequencies range of the enclosed circuit, coupling between the circuit and these resonant cavity modes may disturb circuit operation.

11. 加工高质量的石英音叉需要解决工艺误差导致的机械耦合误差及频率漂移等问题。

To get high quality quartz tuning forks, mechanical coupling error and frequency excursion by machining errors must be resolved.

12. 该模型的计算结果表明，立管的模态振型、模态频率与涡激振动响应高度耦合，并且对于低质量比的情况尤为明显。

It shows that the modal shape and mode frequency are highly coupled with the VIV response of a Marine riser with low mass ratio.

13. 详细讨论了下限频率和耦合电容的计算方法。

The methods for calculating low limit frequency and coupling capacitance are discussed in detail.

14. 通过对有限元模型进行模态分析和机电耦合分析，探讨了定子换能器的固有频率和定子结构尺寸以及两者之间的关系。

Through simulative analysis of finite element model and mechanical-electric coupled, the natural frequency of stator energy converter and stator"s dimensions and their relation were discussed.

15. 给出了三间隙耦合腔输出回路的等效电路，利用等效电路确定了谐振频率及间隙阻抗矩阵。

The equivalent circuit of the three-gap coupled cavity type output section is given, with which resonant frequency of resonant modes and gap impedance matrix are calculated.

16. 我们发现，这两种磁序的表面模的频率随外场和层间耦合的变化情况很不同。

We find that in the voigt geometry the frequency of surface modes versus the external magnetic field and the interlayer coupling is very different in these two different magnetic orderings.

17. 由于箱式浮体结构的低阶固有频率很低，相应的弹性振型的响应与刚体运动耦合，结构在波浪中没有发现明显的低阶弹性模态谐振。

No significant resonance of the low flexible body modes is found due to the coupling of the responses among these modes and the rigid body modes.

18. 针对齿轮耦合的简单平行转子系统，研究了固有振动的特点，分析了影响固有频率的主要因素。

Properties of free vibration were analyzed for simplified geared rotor, and the main factors of influence on eigen frequency were also analyzed.

19. 采用改进的线性组合符和么正变换方法导出强、弱耦合束缚极化子的振动频率和有效质量。

The vibration frequency and effective mass of strong - and weak-coupling bound polaron was derived by using improved linear combination operator and unitary transformation methods.

20. 讨论了流体的流速、压强变化以及固—液耦合阻尼和固—液耦合刚度对管道固有频率的影响；wWW.WEntIyi.COM

The influence of flowing velocity, pressure, solid_liquid coupling damp and solid_liquid coupling stiffness on natural frequency are discussed respectively.

21. 实验表明，采用组合式均匀叉指换能器及变形多条耦合器元件可有效提高对陷阱频率的抑制。

The experiments show that suppress at trap frequency can be effectively improved by using composed uniform IDT and modified MSC.

22. 驻波激光场与级联原子的上跃迁耦合，其拉比频率依赖于原子通过驻波场的位置。

The standing wave laser field is applied to the upper transition with the Rabi frequency dependent on the position through which the atom passes.

23. 在高频电路中，有时用到电容耦合回路，其调谐特性和频率特性与耦合系数直接相关。

The capacitor coupling circuits are applied in the high frequency circuit. It concern the coupling coefficient that the resonance property and frequency property.

24. 边界条件对耦合效应有较大的影响，较强的边界条件使椭圆板热弹耦合自由振动的频率变低，但振荡幅度增大。

The boundary conditions has strong influence on the coupling effect, the stronger it is, the smaller frequency of free vibration is but the larger amplitude is.

25. 将电磁带隙材料用于孔径耦合微带天线的设计，利用其频率带隙抑制天线中激励的表面波，分别考虑高介电常数和低介电常数的情况。

The electromagnetic band-gap (EBG) materials is used to design the aperture coupled patch antennas, and both high permittivity and low permittivity materials are considered in this paper.

26. 在两个频率成分靠的较近，但产生的模态耦合不严重时，通过二次校正可以降低耦合影响，提高估计精度。

When one frequency is close to the others and the coupling is not very severe, we can enhance the precision by the second correction.

27. 比较了不同热弹耦合参数对应的振动情况，得出了热弹耦合效应对振动周期和频率的影响。

The vibration states with different thermoelastic coefficients are compared and the effect of thermoelastic coupling on the amplitude and frequency is presented.

28. 本文耦合粘性边界是和频率无关的，可以适用于频域和时域的计算。

The coupled viscous boundary could be used not only in frequency domain but also in time domain.

29. 而强耦合极化子的振动频率随量子点的有效受限长度的减小而迅速增加。

The relation of these quantities with the effective confinement length of the quantum dot, and the electron-phonon coupling strength is discussed.

30. 而强耦合极化子的振动频率随量子点的有效受限长度的减小而迅速增加。

The relation of these quantities with the effective confinement length of the quantum dot, and the electron-phonon coupling strength is discussed.