从理论和实验上研究了数字全息显微术的分辨率问题。
Resolution of digital holographic microscopy was theoretically and experimentally researched.
使用垂直于像平面的平面光为参考光,降低了数字全息显微术中相位补偿和解包的难度和复杂性。
Since a normal incidence plane wave is used as the reference wave, the difficulty and complexity of phase aberration and phase unwrapping of DHM are remarkably decreased.
本文讨论了全息显微木的基本原理、主要特点及其某些应用。对降低噪声的影响和改善再现象的质量等问题也进行了一些探讨。
Describes elementary principles and major specialities with applications of holographic microscopy, investigates some problems on diminishing noise influence and improving reconstructed image quality.
本文提出了一种可用于集成电路装配和质量控制的、带有双投影物镜和全息光学元件散射全息屏幕的投影型全息显微镜(PHM)系统。
A projection-type holographic microscope with double projection-objectives and a holographic screen used for integrated circuits assembly and quality control is described.
数字全息显微测量技术是检测显微样本微观结构的重要手段,具有系统简单、非入侵、动态性好等特点,是一种很好地具有应用前景的技术。
The digital micro-holography is a important means to measure microstructure of samples, and it is a technology with characteristics of simpleness, non-contact and dynamic, and so on.
本文首次报道一种专门用于记录飞秒激光引发空气电离动态过程的脉冲数字显微全息光路。
We report, for the first time, a specially designed set-up of pulsed digital holography for micro - recording of air-ionization process induced by femto-laser.
提出一种数字显微像面全息术(DMIPH)。
A digital microscopic image plane holography (DMIPH) is proposed.
采用脉冲数字全息技术实现对飞秒级超快动态过程的数字显微全息记录。
In this paper, we report a pulsed digital micro-holography system for recording ultra-fast process of the order of femto-second.
更具体地说,本发明涉及亚显微、全息、电子束、机械控制的或其它衍射和直线光栅。
More particularly, the present invention concerns sub-microscopic, holographic, electron beam, mechanically ruled or other diffraction or straight line gratings.
目前数字全息技术已经广泛应用于形貌测量、变形振动测量、显微观测、信息加密、粒子场测量、数字水印等领域。
At the present time digital holography is widely used in shape measurement, distortion shaking measurement, micro observation, information encryption, particle measurement, digital watermarking et al.
利用全息相衬干涉显微术对(110)面边界层特性进行实时观测和研究。
Holographic phase-contrast interferometric microphotography was used in-situ to study the characteristics of the boundary layers of LFM (110) face.
本文主要研究实现微小或显微相位物体的三维轮廓再现的数字显微全息关键技术。
In this dissertation, digital micro-holography for the reconstruction of three dimensional profiles of the small or micro phase objects and its key techniques are studied.
本文主要研究实现微小或显微相位物体的三维轮廓再现的数字显微全息关键技术。
In this dissertation, digital micro-holography for the reconstruction of three dimensional profiles of the small or micro phase objects and its key techniques are studied.
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