1) Axial superresolution
轴向超分辨
2) axial resolution
轴向分辨率
1.
In this paper, several methods are put forward, by which axial resolution of scan microscope could be improved.
提出并实验研究了几种可以提高激光反馈扫描显微镜轴向分辨率的方法 ,一种方法是对常规激光反馈实验中的探测技术进行了改进 ,用渥拉斯顿棱镜把垂直偏振光分开探测 ,轴向分辨率可以提高约 2 9倍 ;另一种方法是用双频激光器中产生的偏振态相互垂直的o光和e光作为反馈光代替了传统的单一光的反馈 ,轴向分辨率被提高了约 2倍 ;第三种方法是用双频激光器中产生的o光或e光作为反馈光 ,轴向分辨率可以提高约 2 5倍。
2.
The effect of various factors on axial resolution in confocal scanning microscopy is discussed, and some preliminary experimental results are given.
着重分析了共焦扫描术中影响轴向分辨率的各种因素 ,并给出了初步的实验结果 ,同时讨论了优化轴向分辨率的可能途
3.
According to superresolution theorem of improving axial resolution, a new axial pupil filters are proposed.
它既能提高系统的轴向分辨率又不影响其横向分辨率。
3) super-resolution direction estimation
超分辨测向
1.
The paper bring forward applying the Super-resolution direction estimation to the using of the novel passive locating system on base of analyzing the theory of the super-resolution direction estimation.
本文在分析了超分辨测向原理的基础上,提出了将超分辨测向方法应用于新型无源探测系统。
4) Super-resolution direction finding
超分辨测向
1.
Subarray level super-resolution direction finding approaches based on approximate ideal patterns;
基于近似理想方向图的子阵级超分辨测向方法
5) transverse superresolution
横向超分辨
1.
An electrically controllable radial birefringent pupil filter for modulation of transverse superresolution performance and axial extended focal depth is proposed.
提出利用电控径向双折射光瞳滤波器实现横向超分辨性能参量的调制与轴向扩展焦深。
6) superresolution direction finding
超分辨测向
1.
Based on subspace principle, the paper provides a calibration approach for mutual coupling among sensors of uniformly spaced linear arrays and circular arrays, which are widely used in superresolution direction finding.
针对超分辨测向中应用得最为普遍的均匀线阵和均匀圆阵天线 ,基于子空间基本原理 ,提出了一种阵元间互耦的校正方法。
补充资料:高分辨电子显微镜(见高分辨电子显微术)
高分辨电子显微镜(见高分辨电子显微术)
high resolution electron microscope
高分辨电子显微镜high resolution eleetronmieroseope见高分辫电子显微术。
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