The laser system, in which the modulated pump intensity was studied in detail.
利用计算机数值模拟的方法研究了泵浦参数受调制的情况。
However, as the pump intensity increases, high order, especially fifth-order nonlinear effects will appear in the probe signal.
当抽运光强度增大时,探测光信号中会出现明显的高阶特别是五阶非线性效应。
The results show that if the quality of pump light is improved, the crystal length is optimum, the pump intensity, wave leng...
结果表明,为得到高的转换效率,应努力改善泵浦光束质量,使晶体长度处于最佳值,并注意适当选择泵浦光强、波长和脉宽。
The spectra detected from the edge of the sample shows a gain narrowing and a clear threshold when increasing the pump intensity.
当泵浦光强增强时,从样品边缘发射的光谱发生增益窄化并具有明显的阈值特性。
The signal power output of high conversion efficiency is depended on the optimum crystal lengths, pump intensity and signal power.
高转换效率的信号光输出取决于抽运光和初始信号光的强度及晶体长度的最佳优化值。
The results show that the frequency response characteristics of VCSOAs are influenced by the optical pump intensity, the input optical power and the spontaneous emission factor.
结果表明,VCSOA的频率响应特性受抽运光强度、输入光功率以及自发辐射因子的影响。
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.
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 shaft is one of main motion parts in the pump. Its intensity and the quality of its design directly determine the pump function, efficiency and its lifetime.
轴作为泵主要运动部件之一,其设计的优劣和强度直接决定着泵性能的好坏,关系泵的运行效率和使用寿命。
The experimental curves about intensity of conjugate wave vs. irradiate time at different pump power is given.
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。
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.
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。
As an important complement and consummation of the pump CAD system, the SPCAD software system fills up the gap of the pump shaft intensity calibration in pump CAD system.
SPCAD系统作为泵cad系统的一个重要补充和完善,填补了泵cad系统中泵轴强度校核CAD应用的空白。
In order to reduce the equipment size, sometimes the large-scale forging pump press commonly used high intensity of pressure (about 35 megabars), also uses 100 megabars above ultrahigh voltage.
为减小设备尺寸,大型锻造水压机常用较高压强(35兆帕左右),有时也采用100兆帕以上的超高压。
The relations between the gain and signal light intensity and pump light intensity are analyzed.
就增益随信号光及泵浦光光强的变化作了分析。
It is inevitable that a gain medium exists always in a practical laser resonator. Moreover, it is impossible to ensure the pump light intensity distribution in the laser medium is uniform.
实际的激光腔不可避免有增益介质的存在,同时,也不可能保证光强的泵浦分布是均匀的。
We also investigate the dependence of peak transmission on both pump laser intensity and Rb cell temperature.
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。
An exact analytical expression for laser intensity distribution is obtained on resonance with equal mode pump parameters.
在共振及两模具有相同泵参数时,获得了光强联合定态分布的精确解析表达式。
The results show that the threshold distance of SRRS decreases with increasing the intensity and the pulse width of the pump laser.
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 intensity dependence of integrated luminescence on pump power shows that this is a third-order nonlinear optical effect.
荧光强度与激发光强度的三次方关系表明,有效的荧光产生起源于三阶非线性光学效应的增强。
The inhomogeneous distribution of gain coefficient is inevitable because of the inhomogeneous distribution of pump light intensity in laser medium.
这样光强分布的不均匀必然导致增益分布的不均匀,因此,在考虑自再现模时有考虑增益系数分布状态的必要。
We take into account the change of the phase-conjugate reflectivity with the different pump beams intensity.
考虑了泵浦光光强不同时的相位共轭反射率的变化。
The self-preparing oil water emulsion pump group can take off a bulky emulsified liquid box, and can reduce workers' labor intensity.
使用该自配乳化液泵组,可以去掉庞大的乳化液箱,并且可以减轻工人的劳动强度。
As the pump light incident port of the heating cylinder is provided with the convex lens to increase the light intensity of pump light, the performance of the cavity-cell system is guaranteed.
在加热筒抽运光入射端口加装凸透镜增大抽运光光强,确保了腔泡系统性能。
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.
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。
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