Quantitative phase imaging based on holography: trends and new perspectives
Abstract In 1948, Dennis Gabor proposed the concept of holography, providing a pioneering
solution to a quantitative description of the optical wavefront. After 75 years of development …
solution to a quantitative description of the optical wavefront. After 75 years of development …
On the use of deep learning for phase recovery
Phase recovery (PR) refers to calculating the phase of the light field from its intensity
measurements. As exemplified from quantitative phase imaging and coherent diffraction …
measurements. As exemplified from quantitative phase imaging and coherent diffraction …
Transport of intensity diffraction tomography with non-interferometric synthetic aperture for three-dimensional label-free microscopy
We present a new label-free three-dimensional (3D) microscopy technique, termed transport
of intensity diffraction tomography with non-interferometric synthetic aperture (TIDT-NSA) …
of intensity diffraction tomography with non-interferometric synthetic aperture (TIDT-NSA) …
Intensity-based holographic imaging via space-domain Kramers–Kronig relations
Holography is a powerful tool to record waves without loss of information that has benefited
optical, X-ray and electronic imaging applications by quantifying phase delays induced by …
optical, X-ray and electronic imaging applications by quantifying phase delays induced by …
Label-free multiplexed microtomography of endogenous subcellular dynamics using generalizable deep learning
Simultaneous imaging of various facets of intact biological systems across multiple
spatiotemporal scales is a long-standing goal in biology and medicine, for which progress is …
spatiotemporal scales is a long-standing goal in biology and medicine, for which progress is …
Fourier ptychographic microscopy image stack reconstruction using implicit neural representations
Image stacks provide invaluable 3D information in various biological and pathological
imaging applications. Fourier ptychographic microscopy (FPM) enables reconstructing high …
imaging applications. Fourier ptychographic microscopy (FPM) enables reconstructing high …
Review of bio-optical imaging systems with a high space-bandwidth product
Optical imaging has served as a primary method to collect information about biosystems
across scales—from functionalities of tissues to morphological structures of cells and even at …
across scales—from functionalities of tissues to morphological structures of cells and even at …
Dual-plane coupled phase retrieval for non-prior holographic imaging
Accurate depiction of waves in temporal and spatial is essential to the investigation of
interactions between physical objects and waves. Digital holography (DH) can perform …
interactions between physical objects and waves. Digital holography (DH) can perform …
High-speed in vitro intensity diffraction tomography
We demonstrate a label-free, scan-free intensity diffraction tomography technique utilizing
annular illumination (aIDT) to rapidly characterize large-volume three-dimensional (3-D) …
annular illumination (aIDT) to rapidly characterize large-volume three-dimensional (3-D) …
Roadmap on digital holography-based quantitative phase imaging
Quantitative Phase Imaging (QPI) provides unique means for the imaging of biological or
technical microstructures, merging beneficial features identified with microscopy …
technical microstructures, merging beneficial features identified with microscopy …