雕塑薄膜可以实现各向同性薄膜无法实现的光学性质,为光学薄膜的设计与制备开辟了新的途径。
Anisotropic sculptured thin films can have optical properties that the isotropic thin film can't possess. This opens up a new way to design and prepare the optical films.
针对各向同性圆形光学镜面做了具体的模拟计算,对圆形镜面的多点支承问题进行了初步研究。
And the numeric simulation is done to get the multi-supporting results of the optical elements with large aperture.
更具体的说,这些公开的化合物可以用来制造光学各向同性或各向异性、并且至少部分结晶的薄膜。
The disclosed compounds could be used, in particular, for producing optically isotropic or anisotropic and at least partially crystalline films.
作为一类特殊的透明介质,非线性光学晶体因其具有不同于各向同性介质的结构,因而在与飞秒光脉冲相互作用时,可能会产生很多新的物理现象。
As a special kind of transparent material, nonlinear optical crystal may induce some more phenomena when femtosecond laser pulse propagate in it because of its peculiar structure.
作为一类特殊的透明介质,非线性光学晶体因其具有不同于各向同性介质的结构,因而在与飞秒光脉冲相互作用时,可能会产生很多新的物理现象。
As a special kind of transparent material, nonlinear optical crystal may induce some more phenomena when femtosecond laser pulse propagate in it because of its peculiar structure.
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