Starting from the diffraction integration in terms of ray matrix elements, the optical transfer functions have been derived for complicated optical system.
从光线矩阵元表达的衍射积分出发,导出了复杂光学系统的光学传递函数。
With the techniques and elements of diffractive optics, it is now feasible to break the diffraction limit and achieve optical superresolution.
利用衍射光学的技术与器件,能够突破受限于衍射极限的分辨率,实现光学超分辨。
The designed system benefits from the specialities of binary optical elements and approaches diffraction limitation by use of only two germanium lenses.
借助于二元光学器件的独特性质,系统在仅使用两片锗透镜的情况下得到了接近衍射极限的光学质量。
The main work of this dissertation focuses on the analysis and design theory for a resonator with diffraction optical elements by using a matrix eigenvalue method.
本文的重点是:阐述了利用矩阵本征值方法分析和设计激光谐振腔的系统理论;
The main work of this dissertation focuses on the analysis and design theory for a resonator with diffraction optical elements by using a matrix eigenvalue method.
本文的重点是:阐述了利用矩阵本征值方法分析和设计激光谐振腔的系统理论;
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