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Zernike polynomials and their applications
The Zernike polynomials are a complete set of continuous functions orthogonal over a unit
circle. Since first developed by Zernike in 1934, they have been in widespread use in many …
circle. Since first developed by Zernike in 1934, they have been in widespread use in many …
Evaluating phase separation in live cells: diagnosis, caveats, and functional consequences
The idea that liquid–liquid phase separation (LLPS) may be a general mechanism by which
molecules in the complex cellular milieu may self-organize has generated much excitement …
molecules in the complex cellular milieu may self-organize has generated much excitement …
Adaptive optical quantitative phase imaging based on annular illumination Fourier ptychographic microscopy
Quantitative phase imaging (QPI) has emerged as a valuable tool for biomedical research
thanks to its unique capabilities for quantifying optical thickness variation of living cells and …
thanks to its unique capabilities for quantifying optical thickness variation of living cells and …
Image-to-image regression with distribution-free uncertainty quantification and applications in imaging
Image-to-image regression is an important learning task, used frequently in biological
imaging. Current algorithms, however, do not generally offer statistical guarantees that …
imaging. Current algorithms, however, do not generally offer statistical guarantees that …
End-to-end deep learning framework for digital holographic reconstruction
Digital holography records the entire wavefront of an object, including amplitude and phase.
To reconstruct the object numerically, we can backpropagate the hologram with Fresnel …
To reconstruct the object numerically, we can backpropagate the hologram with Fresnel …
Smart computational light microscopes (SCLMs) of smart computational imaging laboratory (SCILab)
Computational microscopy, as a subfield of computational imaging, combines optical
manipulation and image algorithmic reconstruction to recover multi-dimensional microscopic …
manipulation and image algorithmic reconstruction to recover multi-dimensional microscopic …
Imaging biological tissue with high-throughput single-pixel compressive holography
Single-pixel holography (SPH) is capable of generating holographic images with rich spatial
information by employing only a single-pixel detector. Thanks to the relatively low dark-noise …
information by employing only a single-pixel detector. Thanks to the relatively low dark-noise …
All-optical complex field imaging using diffractive processors
Complex field imaging, which captures both the amplitude and phase information of input
optical fields or objects, can offer rich structural insights into samples, such as their …
optical fields or objects, can offer rich structural insights into samples, such as their …
Physics-based learned design: optimized coded-illumination for quantitative phase imaging
Coded illumination can enable quantitative phase microscopy of transparent samples with
minimal hardware requirements. Intensity images are captured with different source …
minimal hardware requirements. Intensity images are captured with different source …
Single-shot quantitative amplitude and phase imaging based on a pair of all-dielectric metasurfaces
Quantitative amplitude and phase imaging (QAPI) has been an effective technique to
examine label-free biomedical samples. Simple and reliable QAPI techniques realized by …
examine label-free biomedical samples. Simple and reliable QAPI techniques realized by …