激光直写机是制作衍射光学元件的关键设备,离焦检测技术是其中的重要单元技术之一。
Laser direct writing system is the key equipment for fabrication of optical diffractive elements, and the defocus detection technique is the important sub-tech in it.
同时轮廓仪也可直接用于中低精度非球面光学元件的最终检测。
Meanwhile it is suitable for final testing of optical element with reasonable accuracy.
结果表明,文中提出的波前重建算法和采用的光路系统可用于实际光学元件面形的准确检测,系统的重复性也得到了研究。
The results show that both the wavefront reconstruction algorithm and the optical system are able to exactly test the optics surface. And the repeatability of the setup is analyzed.
在用于惯性约束聚变研究的高功率固体激光驱动器中,光学元件损伤的在线检测一直是强激光物理与技术研究的重点。
In the study of the high power solid laser for ICF, online inspection for optic damage plays an important part in the research of high laser physics and technology.
本发明公开了一种数字干涉条纹分析方法及光学元件面形检测装置。
The invention discloses a method for analyzing digital interference fringe and a device for detecting optical component surface shape.
纳米光纤探针作为近场光学显微镜和纳米光纤生物传感器中的关键元件,用于微小尺度物体的检测和分析。
Fiber-optical nanoprobes are the key elements for detecting and analyzing micro-scale objects in near-field optical microscopes and fiber-optical nano-biosensors.
为大型光学系统中光学元件损伤的在线、自动化检测提供了一种有用的技术途径。
The image processing method can provide a useful approach for online inspection and automatization inspection of damage in optics.
基于强激光系统光学元件损伤的在线暗场成像检测,提出了一种无损、自动、快速检测的新算法。
A new algorithm of nondestructive, automatic and high-speed inspection is proposed for dark-field image to be used to inspect online optic component damage on high power laser system.
利用暗场成像原理,研制成功一套应用于大型激光装置的光学元件损伤在线检测装置,并在多程放大系统上进行了实验研究。
An online inspection apparatus of optics damage in large scale laser facility is developed applying dark-field imaging technology. Experiments were carried out on a multi-pass amplifier.
总结了常用大型非球面光学元件轮廓检测方法及其特点。
The characteristics of testing methods of measuring the large aspheric optical profile and their characteristics are summarized.
论文采用模块化方法对光学元件表面广义疵病检测装置设计开发过程展开研究。
In this paper, modularization is used to study the design and development of an inspection system for generalized defects on an optical surface.
在用于惯性约束聚变(ICF)研究的高功率固体激光驱动器中,光学元件损伤的在线检测一直是强激光物理与技术研究的重点。
In the study of the high power solid laser for ICF (Inertial Confinement Fusion), online inspection for optic damage plays an important part in the research of high laser physics and technology.
所述检测系统(100)还包括适于将所述激发辐射引导到所述至少一个检测器元件(106)的旁边的光学装置(112)。
The detection system (100) also comprises optical means (112) adapted for guiding said excitation radiation aside the at least one detector element (106).
大口径光学元件的重力变形对元件检测和光学系统性能影响很大。
The Gravity deformation of large aperture optical cell greatly affect the optical surface test and the optical system performance.
光学元件是在地面重力环境中进行的加工、检测和装调,而在轨工作环境则是微重力环境,这要求光学元件具有高的静态刚度。
Optical elements are processed, tested and aligned undergravity load case, they works under the microgravity environment, the supportstructure must have large static stiffness.
建立了拼接检测计算的模型。利用最小二乘法计算得到拼接参数,从而恢复大口径光学元件的全孔径波前相位分布。
The calculation model is established based on the theory of the least-square method, and a set of testing equipment is designed.
设计了基于环路径向剪切干涉检测光学元件面形的光路系统。
The optical system for optics measurement is designed based on this technique.
设计了基于环路径向剪切干涉检测光学元件面形的光路系统。
The optical system for optics measurement is designed based on this technique.
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