Opinions on imaging and cutting-edge developments in light microscopy for biomedical applications DOI Open Access
Kirti Prakash, Rainer Heintzmann, Uri Manor

et al.

Applied Physics Letters, Journal Year: 2023, Volume and Issue: 123(26)

Published: Dec. 25, 2023

Optical microscopy has revolutionized the field of biology, enabling researchers to explore intricate details biological structures and processes with unprecedented clarity.Over past few decades, significant strides have been made in tailoring optical techniques meet specific needs biologists (Schermelleh et al., 2019;Prakash 2022).From sample preparation hardware designs software requirements, improvements driven by goal enhancing imaging capabilities facilitating quantitative analysis.The papers featured this issue cover a wide range topics, addressing various aspects for bioimaging.From application nonlinear micro-spectroscopy spatial distribution small gold nanoparticles within multicellular organs background-free (Pope 2023), development multiple feedback-based wavefront shaping method retrieve hidden signals (Rumman 2022), utilization artificial intelligence deep learning algorithms enhanced phase recovery inline holography (Galande each study pushes boundaries what is possible microscopy.Other areas focus include dark-field parallel frequency-domain detection molecular affinity kinetics (Xie radioluminescence nanophosphors (Bai mesoTIRF high-resolution large cell populations (Foylan light-sheet volumetric adaptive (Hong 2022;Keomanee-Dizon

Language: Английский

Physics aware semi-trained deep framework for phase retrieval in digital inline holography DOI
Ashwini S. Galande, Aswathy Vijay,

Hanu Phani Ram Gurram

et al.

Published: Jan. 1, 2023

We propose a hybrid deep framework that combines trained as well untrained models for phase recovery in inline holography. adopted distributed optimization which efficiently learned priors loss function high-fidelity reconstruction.

Language: Английский

Citations

0
Opinions on imaging and cutting-edge developments in light microscopy for biomedical applications DOI Open Access
Kirti Prakash, Rainer Heintzmann, Uri Manor

et al.

Applied Physics Letters, Journal Year: 2023, Volume and Issue: 123(26)

Published: Dec. 25, 2023

Optical microscopy has revolutionized the field of biology, enabling researchers to explore intricate details biological structures and processes with unprecedented clarity.Over past few decades, significant strides have been made in tailoring optical techniques meet specific needs biologists (Schermelleh et al., 2019;Prakash 2022).From sample preparation hardware designs software requirements, improvements driven by goal enhancing imaging capabilities facilitating quantitative analysis.The papers featured this issue cover a wide range topics, addressing various aspects for bioimaging.From application nonlinear micro-spectroscopy spatial distribution small gold nanoparticles within multicellular organs background-free (Pope 2023), development multiple feedback-based wavefront shaping method retrieve hidden signals (Rumman 2022), utilization artificial intelligence deep learning algorithms enhanced phase recovery inline holography (Galande each study pushes boundaries what is possible microscopy.Other areas focus include dark-field parallel frequency-domain detection molecular affinity kinetics (Xie radioluminescence nanophosphors (Bai mesoTIRF high-resolution large cell populations (Foylan light-sheet volumetric adaptive (Hong 2022;Keomanee-Dizon

Language: Английский

Citations

0