Abstract
The transport of intensity equation (TIE) allows to recover the phase of a microscopy sample from differently focused intensity measures along the axial direction of its optical field. In the present work, we propose a cost-effective technique for snapshot phase retrieval with TIE. The optics of a commercially available camera is replaced with a doublet system consisting of a microscope objective and a lenslet array with an extra lens mask attached to it. The system allows to obtain, in real-time and with no mechanical shift of either the sample or the sensor, the in-focus as well as a defocused image of the sample. From these two sub-aperture images, the intensity derivative term in TIE can then be approximated after image rectification. Phase is then retrieved for static as well as dynamic samples over the common view area. Validation experiments are presented.
Cited by
4 articles.
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1. Snapshot Quantitative Phase Imaging in Multi-Perspective Microscopy;Optica Imaging Congress 2024 (3D, AOMS, COSI, ISA, pcAOP);2024
2. Integral Phase Imaging for 3D Refractive Index Retrieval with the Transport of Intensity Equation;Optica Imaging Congress 2024 (3D, AOMS, COSI, ISA, pcAOP);2024
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