理论分析还指出,由于存在与泵浦强度有关的衰减系数,使参量振荡信号强度与泵浦强度呈多值关系。
The analysis also shows that the intensity of parametric oscillation is a multi-valued function of the pum…
原子吸收谱宽对阈值泵浦强度的影响是非线性的,随着原子吸收谱宽的增加激光器光光效率出现饱和下降;
The influence of atomic absorption linewidth on threshold pump intensity is nonlinear, and as the absorption linewidth increases the efficiency will saturate and finally decrease.
给出了在不同泵浦功率下,共轭波强度随照射时间变化的实验曲线。
The experimental curves about intensity of conjugate wave vs. irradiate time at different pump power is given.
考虑受激喇曼散射的竞争效应,求得了简并四波混频后向波参量振荡信号强度与泵浦输入强度的关系。
Considering the competing effect of Raman scattering, the dependence of intensity of parametric backward wave oscillation on the pumping intensity is obtained.
在光的非线性传播过程中,增加泵浦光的强度及光和物质的互作用长度是获得较高的频率转换效率的主要途径。
In nonlinear optical frequency conversion process, it is desirable to maximize the product of the intensity of pump laser and the interaction length in order to achieve maximum conversion efficiency.
利用核泵浦激光强度与入射中子注量率的相关性,探讨了反应堆活性区核泵浦激光中子探测器的理论可行性。
The neutron measurement system based on the Nuclear Pumped Laser (NPL) techniques was explored in this work utilizing the relationship between the neutron flux and the NPL laser power.
同时给出了光电流信号强度与灯的放电电流和泵浦能量的关系。
The function of optogalvanic density and the discharge current and pumped energy was given.
研究结果表明:SRRS效应的阈值距离随着泵浦光强度和脉宽的增大而变短;
The results show that the threshold distance of SRRS decreases with increasing the intensity and the pulse width of the pump laser.
通过对不同激光场强条件下的电子态布居转移,研究得到了泵浦光、探测光强度与各电子态布局转移分布的关系。
By studying the electronic state populations under different laser intensities, we got the relationship between laser intensities and populations.
另外,研究了透过峰和泵浦光强度以及温度之间的依赖关系。
We also investigate the dependence of peak transmission on both pump laser intensity and Rb cell temperature.
实验结果表明,时钟泵浦的四波混频共轭光强度高于连续光泵浦。
The experimental results demonstrate that the conjugated FWM component has higher intensity with the clock pumping than that with the continuous-wave (CW) light pumping.
另外,增大光子晶体介质层数目或是增大泵浦光强度,模式竞争现象更加明显。
In addition, we increase the number of the dielectric layer of photonic crystal or the intensity of pump light, the mode competition will be more pronounced.
另外,增大光子晶体介质层数目或是增大泵浦光强度,模式竞争现象更加明显。
In addition, we increase the number of the dielectric layer of photonic crystal or the intensity of pump light, the mode competition will be more pronounced.
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