数字全息显微术
泽尼克多项式
全息术
光学
显微镜
相(物质)
数字全息术
补偿(心理学)
图像减法
光学显微镜
减法
材料科学
波前
物理
计算机科学
计算机视觉
图像处理
数学
图像(数学)
扫描电子显微镜
心理学
精神分析
二值图像
算术
量子力学
作者
Lisa Miccio,Domenico Alfieri,Simonetta Grilli,Pietro Ferraro,Andrea Fińizio,Luciano De Petrocellis,Sergio De Nicola
摘要
Aberrations and the distortions due to the imaging optics can be compensated in quantitative phase microscopy of thin phase objects by digital holography using a single hologram. The reconstructed quantitative phase microscopy phase distribution map can be directly corrected in the reconstructed image plane by a numerical method. To remove this unwanted aberration, in the special case of thin objects, the authors perform a two-dimensional fit with the Zernike polynomials of the reconstructed unwrapped phase. Subtraction of the fitted polynomial from the original phase map gives quantitative phase microscopy phase map free of aberrations.
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