1) Double decent gaussian beam
双偏心椭圆高斯光束
2) Decentered EHGB
偏心椭圆厄米-高斯光束
3) decentered elliptical Gaussian beam
偏心椭圆高斯光束
1.
The beam is referred to as a decentered elliptical Gaussian beam, its transformation is deduced quan.
在椭圆高斯光束横坐标中引入复数偏移量,将其推广为偏心椭圆高斯光束。
4) elliptical Gaussian beam
椭圆高斯光束
1.
Based on the frequency-doubling theory of elliptical Gaussian beam under conditions of critical phase mathcing,an improved intracavity frequency-doubling conversion efficiency is obtained by tuning the orientation of Nd∶YVO4 crystal and choosing appropriate .
根据临界相位匹配下椭圆高斯光束的倍频理论,通过旋转Nd∶YVO4晶体的方向选取合适的基频光偏振方向,使KTP晶体的走离角所在平面与谐振腔弧矢面平行,可提高内腔倍频转换效率。
2.
The generalization of an elliptical Gaussian beam is presented by introducing a complex shift in the transverse coordinates.
在椭圆高斯光束横坐标中引入复数偏移量,将其推广为偏心椭圆高斯光束。
3.
The analytical solution of ultra-short pulsed elliptical Gaussian beams in free space is obtained based on the Fourier transform technique.
基于傅里叶变换的方法,得到了超短脉冲椭圆高斯光束在自由空间中的解析表达式。
5) elliptic Gaussian beam
椭圆高斯光束
1.
The propagation properties of the elliptic Gaussian beam in strongly nonlocal nonlinear media;
椭圆高斯光束在强非局域非线性介质中的传输特性
2.
Taking the elliptic Gaussian beam as an example,we have compared our analysis technique with that of previous work and found that the present method is more reliable in predicting the geometrical properties of fractional Fourier transform of beams and has the advantage of clear intuitive physical insight into beam propagat.
以分析椭圆高斯光束分数傅里叶变换几何特性为例,研究表明,利用本方法讨论傍轴束分数傅里叶变换的几何特性简单可靠、从几何图像理解傍轴束分数傅里叶变换清晰直观。
6) high-order elliptical Gaussian beam
高阶椭圆高斯光束
补充资料:双道双光束原子吸收光谱仪
分子式:
CAS号:
性质:又称双道双光束原子吸收分光光度计(dual-channel double-beam atomic absorption spectropho-tometer),为原子吸收光谱分析用仪器。它有两个光源、两个单色器和两个检测系统,可使两束不同波长的光束(双道)同时通过原子化器,以便同时测定两种元素。双光束是指任一空心阴极灯光源的辐射分为两个光束;其一通过原子化器为测量光束;另一则绕过原子化器为参比光束。
CAS号:
性质:又称双道双光束原子吸收分光光度计(dual-channel double-beam atomic absorption spectropho-tometer),为原子吸收光谱分析用仪器。它有两个光源、两个单色器和两个检测系统,可使两束不同波长的光束(双道)同时通过原子化器,以便同时测定两种元素。双光束是指任一空心阴极灯光源的辐射分为两个光束;其一通过原子化器为测量光束;另一则绕过原子化器为参比光束。
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