The pump power is fed through a second waveguide.
泵的功率通过第二个波导管馈入。
The output power is stable at a given pump power.
在一给定泵浦功率下,其输出功率是稳定的。
Drilling pump power end is a group of crank, link mechanism.
钻井泵的动力端是一组曲柄、连杆机构。
The Er-doped samples concentration and the pump power are optimized.
对样品的掺铒浓度、泵浦功率进行了比较优化;
In general, the volumetric efficiency of pump power higher than the pump.
总的来说,容积泵的效率高于动力式泵。
There exists a rough linear rise for the output power with the pump power.
激光输出功率随抽运功率基本呈线性增长。
Nonlinear refraction index change is proportional to square of mean pump power.
非线性折射率与泵浦平均功率的平方成正比。
The optimization of threshold pump power of the double-clad cw fiber laser has been discussed.
对连续运行时双包层光纤激光器阈值的优化问题进行了分析。
The threshold pump power and slope efficiency were discussed by using the quasi-three-level rate equations.
通过准三能级系统的速率方程,分析了激光系统的抽运阈值和斜率效率。
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。
The effect of pump power, amplifier length and signal gain on the noise characteristic of EYCDWA's are discussed.
详细讨论了泵浦光功率、信号光功率、放大器长度以及光放大器增益对放大器噪声系数的影响。
SBS reflectivity increases nonlinearly, approaches to saturation and decreases with the pump power density increasing.
在较低的抽运功率密度情况下,SBS反射率随抽运功率密度呈非线性增长;
Through the crank link system in high-pressured condition of variable speed movement with drilling pump power transfer.
在高压条件下,通过曲柄连杆机构的变速运动实现钻井泵动力的传递。
The new approaches for charge pump power factor correction (PFC), digital PFC and on - line UPS with PFC are introduced.
介绍了充电泵功率因数校正(PFC)、数字PFC和带PFC的在线UPS的几种新方法。
Moreover, in order to improve the EDWA performance, the parameters are optimized such as pump power and waveguide length.
并且为了全面发挥掺铒玻璃波导放大器的性能,需要抽运功率、波导长度等各个参量配合起来。
A mathematic model of the pump power absorption and distribution in the LD side pumped solid state laser medium is set up.
通过对激光二极管(LD)侧面抽运激光介质的分析研究,建立了二极管侧面抽运激光介质所吸收的抽运光功率分布的数学模型。
Variations of the longitudinal modes and the amplitude noise power spectrum with the incident pump power have been studied.
研究了激光器的纵模特性及弛豫噪声与泵浦功率的关系;
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 numerical simulation results show that the input pump power and probe power have direct influences on the noise conversion.
结果表明,入射的泵浦光功率及入射的探测光功率的大小对噪声变换有直接的影响。
Plug-in hybrids, meanwhile, could charge at night, when demand is low, and even pump power back to the grid while parked during the day.
同时,当夜晚用电低谷时,可以利用混合动力装置充电(译注:wikipedia),甚至可以在白天再把电力传输回电网里。
Results indicate that spectral super-broadening without self-focus can be achieved by adjusting the pump power and the beam diameter.
分析得出:通过改变泵浦光的功率和光束口径,可以实现光谱的极大展宽并避免自聚焦成丝。
Increasing the thickness of films will enhance the peak of PL, and there is a saturated thickness at the constant pump power by Laser.
而薄膜厚度的增加有利于退火后光致发光的峰值光强增加,但是对于一定的泵浦功率存在饱和厚度。
The output power and optical efficiency of different resonator parameters and pump power have been analyzed with numerical calculation.
用数值计算给出了不同腔参数和不同的抽运功率下的输出功率和光一光效率图。
To evaluate the enhancement effect of the studied channel reasonably, the assessing method of the same pump power constraint is adopted.
为了合理评价所研究通道的强化效果,采用相同泵功的评价方法对结果进行了讨论。
The relations between the output pulse energy of the amplifier and the different input pulse peak power or pump power are also discussed.
讨论了掺镱双包层光纤放大器输出脉冲能量随不同输入脉冲峰值功率和泵浦功率的关系。
Positive displacement pump including reciprocating pump, gear pump and screw pump, centrifugal pumps and axial flow pump belong to pump power.
容积式泵包括往复泵、螺杆泵和齿轮泵等,离心泵和轴流泵等则属于动力式泵。
The hydraulic-driven reciprocating pump power was studied, including system design and the design of overall dynamic side of the hydraulic system.
对液压驱动往复泵动力端进行了设计,主要包括:系统总体方案设计和动力端液压系统的设计。
Analytic solutions for the threshold pump power, the output power, the slope efficiency and optimum erbium-doped fiber length of EDFL are obtained.
获得了激光器的阈值泵浦功率、输出功率。斜率效率以及最佳掺铒光纤长度的解析解。
The noise, gain saturation and pump power conversation efficiency of bidirectionally pumped Raman fiber amplifier (RFA) are investigated in detail.
对双向抽运拉曼光纤放大器(RFA)的噪声特性、增益饱和及抽运功率转换效率进行了详细研究。
The noise, gain saturation and pump power conversation efficiency of bidirectionally pumped Raman fiber amplifier (RFA) are investigated in detail.
对双向抽运拉曼光纤放大器(RFA)的噪声特性、增益饱和及抽运功率转换效率进行了详细研究。
应用推荐