Add to ORKGWe report Tensorial Tomographic Differential Phase-Contrast microscopy (T2DPC), a quantitative label-free tomographic imaging method for simultaneous measurement of phase and anisotropy. T2DPC extends differential phase-contrast microscopy, a quantitative phase imaging technique, to highlight the vectorial nature of light. The method solves for permittivity tensor of anisotropic samples from intensity measurements acquired with a standard microscope equipped with an LED matrix, a circular polarizer, and a polarization-sensitive camera. We demonstrate accurate volumetric reconstructions of refractive index, birefringence, and orientation for various validation samples, and show that the reconstructed polarization structures of a biological s...
The application of two approaches for high-throughput, high-resolution X-ray phase contrast tomograp...
An extension of Nomarski differential interference contrast microscopy enables isotropic linear phas...
An extension of Nomarski differential interference contrast microscopy enables isotropic linear phas...
We propose and experimentally demonstrate a differential microscopy method to obtain simultaneous am...
We propose and experimentally demonstrate a differential microscopy method to obtain simultaneous am...
We propose and experimentally demonstrate a differential microscopy method to obtain simultaneous am...
We present geometric-phase microscopy allowing a multipurpose quantitative phase imaging in which th...
A novel application of quantitative phase imaging under linearly polarized light is introduced for s...
A novel application of quantitative phase imaging under linearly polarized light is introduced for s...
A novel application of quantitative phase imaging under linearly polarized light is introduced for s...
Illumination-based differential phase contrast (DPC) is a phase imaging method that uses a pair of i...
Polarization-dependence provides a unique handle for extending the dimensionality of optical microsc...
We present geometric-phase microscopy allowing a multipurpose quantitative phase imaging in which th...
Phase derivative microscopy (PDM), including Laplace field microscopy (LFM) and gradient field micro...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
The application of two approaches for high-throughput, high-resolution X-ray phase contrast tomograp...
An extension of Nomarski differential interference contrast microscopy enables isotropic linear phas...
An extension of Nomarski differential interference contrast microscopy enables isotropic linear phas...
We propose and experimentally demonstrate a differential microscopy method to obtain simultaneous am...
We propose and experimentally demonstrate a differential microscopy method to obtain simultaneous am...
We propose and experimentally demonstrate a differential microscopy method to obtain simultaneous am...
We present geometric-phase microscopy allowing a multipurpose quantitative phase imaging in which th...
A novel application of quantitative phase imaging under linearly polarized light is introduced for s...
A novel application of quantitative phase imaging under linearly polarized light is introduced for s...
A novel application of quantitative phase imaging under linearly polarized light is introduced for s...
Illumination-based differential phase contrast (DPC) is a phase imaging method that uses a pair of i...
Polarization-dependence provides a unique handle for extending the dimensionality of optical microsc...
We present geometric-phase microscopy allowing a multipurpose quantitative phase imaging in which th...
Phase derivative microscopy (PDM), including Laplace field microscopy (LFM) and gradient field micro...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
The application of two approaches for high-throughput, high-resolution X-ray phase contrast tomograp...
An extension of Nomarski differential interference contrast microscopy enables isotropic linear phas...
An extension of Nomarski differential interference contrast microscopy enables isotropic linear phas...