Solving inverse scattering problems in biological samples by quantitative phase imaging
Quantitative phase imaging (QPI), a method that precisely recovers the wavefront of an
electromagnetic field scattered by a transparent, weakly scattering object, is a rapidly …
electromagnetic field scattered by a transparent, weakly scattering object, is a rapidly …
Reproductive outcomes predicted by phase imaging with computational specificity of spermatozoon ultrastructure
The ability to evaluate sperm at the microscopic level, at high-throughput, would be useful
for assisted reproductive technologies (ARTs), as it can allow specific selection of sperm …
for assisted reproductive technologies (ARTs), as it can allow specific selection of sperm …
Quantitative phase imaging of nanoscale cell structure and dynamics
G Popescu - Methods in cell biology, 2008 - Elsevier
Quantitative phase imaging (QPI) of live cells has received significant scientific interest over
the past decade or so, mainly because it offers structure and dynamics information at the …
the past decade or so, mainly because it offers structure and dynamics information at the …
Rolling angle recovery of flowing cells in holographic tomography exploiting the phase similarity
Holographic tomography allows the 3D mapping of the refractive index of biological samples
thanks to reconstruction methods based on the knowledge of illumination directions or …
thanks to reconstruction methods based on the knowledge of illumination directions or …
Single-shot slightly off-axis digital holographic microscopy with add-on module based on beamsplitter cube
Slightly off-axis digital holographic microscopy (SO-DHM) has recently emerged as a novel
experimental arrangement for quantitative phase imaging (QPI). It offers improved …
experimental arrangement for quantitative phase imaging (QPI). It offers improved …
[HTML][HTML] Tutorial: common path self-referencing digital holographic microscopy
Quantitative phase imaging of cells provides important morphological information about
them, leading to their characterization, comparison, and identification. The interference …
them, leading to their characterization, comparison, and identification. The interference …
Label-free quantitative in vitro live cell imaging with digital holographic microscopy
Label-free quantitative in vitro imaging of living cell cultures with light microscopy is an
important tool for various research fields in the life sciences. Digital holographic microscopy …
important tool for various research fields in the life sciences. Digital holographic microscopy …
Characterization of two-photon photopolymerization fabrication using high-speed optical diffraction tomography
Two-photon photopolymerization (TPP) has recently become a popular method for the
fabrication of three-dimensional (3D) micro-and nanostructures. The reproduction fidelity of …
fabrication of three-dimensional (3D) micro-and nanostructures. The reproduction fidelity of …
Diffraction optical tomography using a quantitative phase imaging unit
A simple and practical method to measure three-dimensional (3-D) refractive index (RI)
distributions of biological cells is presented. A common-path self-reference interferometry …
distributions of biological cells is presented. A common-path self-reference interferometry …