Phase-shifting digital holographic microscopy with an iterative blind reconstruction algorithm
Abstract
In phase-shifting digital holographic microscopy (PS-DHM), the reconstructed phase map is obtained after processing several holograms of the same scene with a phase shift between them. Most of the reconstruction algorithms in PS-DHM require an accurate and known phase shift between the recorded holograms. This requirement limits the applicability of the method. To ease the use of PS-DHM, this paper presents an iterative-blind phase shift extraction method based on demodulation of the different components of the recorded holograms. The method uses a DHM system operating in a slightly off-axis architecture. The proposed method uses three-frame holograms with arbitrary and unequal phase shifts between them and therefore eases the use of the PS-DHM. We believe both simulated and experimental results demonstrate the goodness and feasibility of the proposed technique.
Publication Title
Applied Optics
Recommended Citation
Doblas, A., Buitrago-Duque, C., Robinson, A., & Garcia-Sucerquia, J. (2019). Phase-shifting digital holographic microscopy with an iterative blind reconstruction algorithm. Applied Optics (34), G311-G317. https://doi.org/10.1364/AO.58.00G311
