Fast and pure phase-shifting off-axis holographic microscopy with a digital micromirror device.

We present a phase-shifting digital holographic microscopy technique, where a digital micromirror device enables to perform a precise phase-only shift of the reference wave. By coupling the beam into a monomode fiber, we obtain a laser mode with a constant phase shift, equally acting on all pixels of the hologram. This method has the advantage of being relatively simple and compatible with high frame rate cameras, which makes it of great interest for the observation of fast phenomena.

4D compressive sensing holographic imaging of small moving objects with multiple illuminations.

In previous work [Opt. Lett.44, 2827 (2019)OPLEDP0146-959210.

High-speed quantitative 3D imaging by dual-illumination holographic microscopy.

A new blood flow imaging (BFI) technique using digital holography with double illumination of the sample is proposed. We imaged the moving red blood cells (RBCs) using a two microscope objective lenses setup. The setup consists in a larger angle of separation (90 °) between the two illumination beams, allowing a wider angular rotation at good z resolution.

Blood flow imaging in zebrafish by laser doppler digital holography.

Microvessel blood flow imaging techniques are widely used in biomedical research and clinical diagnostics where many diseases have a vascular etiology or involvement. For testing purposes, zebrafish embryo provides an ideal animal model to achieve high-resolution imaging of superficial and deeply localized vessels. Moreover, the study of the formation of a closed circulatory system in vertebrates is a topic of recent interest in biophysics.