Paper
14 April 2010 Physical phase compensation in digital holographic microscopy
Weijuan Qu, Oi Choo Chee, Yingjie Yu, Vijay Raj Singh, Anand Asundi
Author Affiliations +
Proceedings Volume 7522, Fourth International Conference on Experimental Mechanics; 75224P (2010) https://doi.org/10.1117/12.851399
Event: Fourth International Conference on Experimental Mechanics, 2009, Singapore, Singapore
Abstract
In digital holographic microscopy (DHM), using microscope objective for sample imaging may introduce additional spherical phase curvature. It can be physically compensated by introducing a same phase curvature in the reference beam. A theoretical analysis of the wavefront interefence between the reference beam and object beam is provided to indicate the physical phase compensation. The spatial frequency spectra of the hologram are involved for the judgement of the physical phase compensation status. Different DHM setups are presented in order to fulfill the physical compensation of the introduced spherical phase. In the DHM setups based on the Michelson interferometric configuration, an adjustable lens is used to perform the quasi physical phase compensation during the hologram recording. In the common-path DHM setups, digital off-axis holograms are recorded by using a single cube beam splitter in a non-conventional configuration so as to both split and combine a diverging spherical wavefront emerging from a microscope objective. A simple plane numerical reference wavefront is used for the reconstruction and the correct quantitative phase map of the test object is obtained after phase unwrapping. Its simplicity of the presented setups make it easy to be well aligned and with lower cost.
© (2010) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Weijuan Qu, Oi Choo Chee, Yingjie Yu, Vijay Raj Singh, and Anand Asundi "Physical phase compensation in digital holographic microscopy", Proc. SPIE 7522, Fourth International Conference on Experimental Mechanics, 75224P (14 April 2010); https://doi.org/10.1117/12.851399
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KEYWORDS
Digital holography

Holograms

Spherical lenses

Wavefronts

Phase compensation

Molybdenum

Digital recording

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