Live endothelial cells. (a) Quantitative phase image. (b) Simulated DIC image estimated by central-difference gradient approximation of (a). Originally published in Applied Optics on 01 October 2015 (ao-54-28-8566
Quantitative phase imaging has many applications for label-free studies of the nanoscale structure a...
Quantitative phase imaging has many applications for label-free studies of the nanoscale structure a...
Phase contrast, a noninvasive microscopy imaging technique, is widely used to capture time-lapse ima...
Our ongoing investigations of DIC microscopy have shown it is possible to measure phase variations b...
Abstract: We introduce a new fast and accurate method for dynamic quantitative phase imaging of biol...
The development of uorescent probes and proteins has helped make light microscopy more popular by al...
The phase second order derivative along x of the data in Video 1. The color bar indicates phase in u...
When light strikes at an object, its details are engraved on wave’s three properties (amplitude, wav...
Most biological cells are not clearly visible with a bright field microscope. Several methods have b...
The distribution of refractive indices (RIs) of a living cell contributes in a nonintuitive manner t...
In this paper we investigate the use of a geometric phase- shifting (GPS) technique which allows us ...
Cellular Phase Displacement Movie Originally published in Optics Letters on 15 January 2016 (ol-41-2...
Comparisons of phase reconstructions between our source-coded FPM and differential phase contrast fo...
Using the decomposition of an image field in two spatial components that can be controllably shifted...
Differential-Interference-Contrast (DIC) microscopy is a powerful technique for the visualization of...
Quantitative phase imaging has many applications for label-free studies of the nanoscale structure a...
Quantitative phase imaging has many applications for label-free studies of the nanoscale structure a...
Phase contrast, a noninvasive microscopy imaging technique, is widely used to capture time-lapse ima...
Our ongoing investigations of DIC microscopy have shown it is possible to measure phase variations b...
Abstract: We introduce a new fast and accurate method for dynamic quantitative phase imaging of biol...
The development of uorescent probes and proteins has helped make light microscopy more popular by al...
The phase second order derivative along x of the data in Video 1. The color bar indicates phase in u...
When light strikes at an object, its details are engraved on wave’s three properties (amplitude, wav...
Most biological cells are not clearly visible with a bright field microscope. Several methods have b...
The distribution of refractive indices (RIs) of a living cell contributes in a nonintuitive manner t...
In this paper we investigate the use of a geometric phase- shifting (GPS) technique which allows us ...
Cellular Phase Displacement Movie Originally published in Optics Letters on 15 January 2016 (ol-41-2...
Comparisons of phase reconstructions between our source-coded FPM and differential phase contrast fo...
Using the decomposition of an image field in two spatial components that can be controllably shifted...
Differential-Interference-Contrast (DIC) microscopy is a powerful technique for the visualization of...
Quantitative phase imaging has many applications for label-free studies of the nanoscale structure a...
Quantitative phase imaging has many applications for label-free studies of the nanoscale structure a...
Phase contrast, a noninvasive microscopy imaging technique, is widely used to capture time-lapse ima...
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