1) more gain segments
多层增益介质
1.
Mode calculation in unstable resonators with flowing saturable gain using the Fast Fourier transform (FFT) algorithm and more gain segments method in resonator.
采用FFT方法和多层增益介质模块处理法研究了非稳腔下具有非均匀流动介质的高功率气体激光器的光束特性和光束质量,该方法比增益介质近腔镜簿层处理法适用性更广。
2) gain medium
增益介质
1.
This paper quantitatively compares the spectrum characteristics between Fabry-Perot interferometer with gain medium and diffraction grating spectrometer.
对加入增益介质的F-P干涉仪的光谱特性与衍射光栅光谱仪的光谱特性作了定量对比。
2.
According to Raman gain theory, the optimized design of fiber Raman amplifiers is proposed in different aspects, such as gain medium, pump source and pump condition.
根据拉曼放大的基本方程 ,从增益介质、抽运光源和抽运方式三个方面提出光纤拉曼放大器的优化设计原则 ,并给出理论计算结
3.
It is found that under certain conditions,the generalized vector potential effective field operator of the 4MFSS light field |Ψ(fj)>q in the medium shows periodical equal-power N-th power Y-squeezing;in the gain medium,as the light field spreading.
结果表明,在一定条件下,介质中4MFSS光场广义矢势有效场算符呈现出周期性变化的等幂次N次方Y压缩效应;在增益介质中,随着光场传播距离及各单模相干态光场平均光子数、多模相干态光场总平均光子数和光场强度的增大,光场广义矢势有效场算符所呈现的N次方Y压缩效应压缩程度加深,压缩幅度增大,压缩效应增强;在吸收介质中,随着光场传播距离的增大,各单模相干态光场平均光子数及多模相干态光场总平均光子数减小,光场强度减小,广义矢势有效场算符N次方Y压缩效应压缩程度降低,压缩幅度减小,压缩效应减弱。
3) gain media
增益介质
1.
These two crystals aare expected to become ideal gain media of tunable solid laser in near infrared region.
Cr4+∶YAG和Cr4+∶Mg2 SiO4这两种晶体有望成为近红外可调谐固体激光器的理想增益介
4) medium gain
介质增益
1.
Via solving density matrix equations of the three level system, the medium gain G s and output power density I s along the sample tube in a miniature optically pumped NH 3 molecular far infrared laser (mini NH 3 OPFIRL) were calculated by means of the iteration method.
利用三能级系统的密度矩阵方程,通过迭代法计算了小型光泵NH3分子远红外激光器(mi-ni-NH3-OPFIRL)的介质增益Gs沿激光管的变化规律以及远红外信号光强Is沿激光管的放大过程。
5) Multi-segmented slab
多段复合板条增益介质
补充资料:多层沉积层
分子式:
CAS号:
性质:由两种或两种以上相继沉积的金属构成的沉积层。这些沉积层可以由不同特性的同一金属或不同金属构成。如为了提高镍镀层的防护性,有时采用双层镍或三层镍镀层。又如为防护-装饰目的采用的铜/镍/铬三层镀层。
CAS号:
性质:由两种或两种以上相继沉积的金属构成的沉积层。这些沉积层可以由不同特性的同一金属或不同金属构成。如为了提高镍镀层的防护性,有时采用双层镍或三层镍镀层。又如为防护-装饰目的采用的铜/镍/铬三层镀层。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条