Abstract
The in-line holography has obvious advantages especially in wider spatial bandwidth over the off-axis holography. However, a direct current(DC)-noise and an unwanted twin image should be separated or eliminated in the in-line holography for a high quality reconstruction. An approach for suppressing the twin image is proposed by separating the real and twin image regions in the digital holography. Specifically, the initial region of real and twin images is obtained by a blind separation matrix, and the segmentation mask to suppress the twin image is calculated by nonlinear quantization from the segmented image. For the performance evaluation, the proposed method is compared with the existing approaches including the overlapping block variance and manual-based schemes. Experimental results showed that the proposed method has a better performance at the overlapped region of the real and twin images. Additionally, the proposed method causes less loss of real image than the overlapping block variance-based scheme. Therefore, we believe that the proposed scheme can be a useful tool for high quality reconstruction in the in-line holography.
Highlights
The digital holography has been such a great issue these days because it can provide a three dimensional information corresponding to a real object [1, 2]
The off-axis holography gives a better reconstruction with negligible noise than the in-line holography
The scheme for generating a nonlinear segmentation mask was proposed by using a blind separation matrix obtained from the relation between in-focus real and twin images
Summary
The digital holography has been such a great issue these days because it can provide a three dimensional information corresponding to a real object [1, 2]. One of the advantages is wider spatial bandwidth than that of the off-axis holography. Its applicability is decreased due to the unwanted components during the reconstruction step. It is still an open problem in in-line holography for a better numerical reconstruction. To use wider spatial bandwidth in holographic reconstruction, twin image should be suppressed in in-line holographic configuration. Numerical twin mage suppression has been researched by several approaches in in-line holography. The twin images suppression based on the segmented filter has been researched [4,5,6]. An efficient way of generating the segmentation mask is presented to suppress the twin image in digital holography.
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