当折射棱镜折射角很小时,称之为光楔。
It is called the optical wedge, when the refraction Angle of the refracting prisms is tiny.
文中介绍了如何获得及同化GPS折射角资料的原理。
This paper introduces how to obtain and assimilate the GPS bending angle.
利用光子晶体的完全色散关系,研究了一维光子晶体中折射角与入射角之间的关系。
The relationship between refracting Angle and incident Angle in the one-dimensional photonic crystals was studied by means of complete dispersion relation.
利用矩阵条件数对方程求解的稳定性进行了讨论,推导出理论上的折射角和小角散射宽度的最大值。
The stability of the reconstruction procedure is discussed using the condition number of matrix, and the theoretical maxima of the refraction angle and USAXS distribution width are given.
GPS折射角资料具有分辨率高、全天候探测、覆盖全球等优点,实现对GPS折射角资料的变分同化,将具有非常重要的意义。
There are many advantages of the GPS bending Angle, such as high resolution, availability in all weather conditions, and global data coverage.
GPS折射角资料具有分辨率高、全天候探测、覆盖全球等优点,实现对GPS折射角资料的变分同化,将具有非常重要的意义。
There are many advantages of the GPS bending Angle, such as high resolution, availability in all weather conditions, and global data coverage.
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