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.
提出一种数字显微像面全息术(DMIPH)。
A digital microscopic image plane holography (DMIPH) is proposed.
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.
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.
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