Abstract
Self-interference incoherent digital holography (SIDH) retrieves the complex hologram from the object illuminated by the incoherent light. Supported by the adaptive optic feature, SIDH is readily applicable to the ocular imaging to investigate the human retinal cells. Considering the practical issues, issues related to resolution, phase-shifting, and contrast should be addressed to implement the viable SIDH system which is capable of recording the holographic information of human retinal cells under the incoherent illumination. Super resolution image reconstruction technique can be directly applied to SIDH to enhance the resolution of the system without any change of configuration. We present the improved way to incorporate the phase-shifting itself into the lateral shift required by the super resolution technique. To deal with the phase-shifting issue, we present an arbitrary phase shift retrieval algorithm which can reduce the number of phase-shift and accept the blind phase-shift. The single-shot imaging is also possible by adopting the off-axis configuration of SIDH. We will provide the detailed procedures to retrieve the complex hologram using the proposed arbitrary phase shifting algorithm and the off-axis configuration.
Highlights
Self-interference incoherent digital holography (SIDH) is one of the techniques that can record the holographic information from the object illuminated by the incoherent light
We have investigated the possibility of applying SIDH for the ocular imaging
We have shown that various approaches can be applied to deal with those issues
Summary
Self-interference incoherent digital holography (SIDH) is one of the techniques that can record the holographic information from the object illuminated by the incoherent light. The possibility of the incoherent holography was already studied from the early years of the history of holographic imaging [1]–[3] It was not successful until the development of the electronic devices and computer science. Based on the digital holography, many techniques, which can successfully record the holographic information with incoherent illumination, had been reported [4]–[8]. Rosen and Brooker had shown the recording of holographic information from the fluorescence object which was not possible with the coherent holography [6].
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