We demonstrate a method to image through thick layered scattering materials.The method uses time-resolved measurement and leverages all of the optical signal to computationally invert the scattering. ©2016 Presented as a poster at the 2017 3D Image Acquisition and Display: Technology, Perception and Applications conference, June 26-29, 2017, San Francisco, California
Ponència presentada a 3rd Biomedical Imaging and Sensing Conference, celebrada a Yokohama, Japó, 19-...
Imaging an object hidden behind a highly scattering medium is difficult since the wave has gone thro...
A simple upconversion scheme utilizing 40-fs pulses is shown to permit high-contrast imaging of obje...
Imaging through thick highly scattering media (sample thickness ≫ mean free path) can realize broad ...
Optical microscopy suffers from a loss of resolving power when imaging targets are embedded in thick...
Precision measurement of the morphology of macroscopic objects has played an important role in many ...
Scattering materials are ubiquitous: from our skin and food, to every objects such as wax and soap, ...
Multiply scattered light represents a fundamental obstruction to optical imaging. In the following t...
This project represents a step towards the overarching aim of imaging scattering specimens. In such ...
This thesis describes new advanced optical methods to control light propagation through disordered n...
We demonstrate 3D time-of-flight imaging from a scattering target illuminated with a heralded single...
We measure the time-of-flight distributions of near-infrared photons emerging from thick scattering ...
This is the author accepted manuscript. The final version is available from nature Research via the ...
While traditional imaging systems directly measure scene properties, computational imaging systems a...
International audienceSpatio-temporal imaging of light propagation is very important in photonics be...
Ponència presentada a 3rd Biomedical Imaging and Sensing Conference, celebrada a Yokohama, Japó, 19-...
Imaging an object hidden behind a highly scattering medium is difficult since the wave has gone thro...
A simple upconversion scheme utilizing 40-fs pulses is shown to permit high-contrast imaging of obje...
Imaging through thick highly scattering media (sample thickness ≫ mean free path) can realize broad ...
Optical microscopy suffers from a loss of resolving power when imaging targets are embedded in thick...
Precision measurement of the morphology of macroscopic objects has played an important role in many ...
Scattering materials are ubiquitous: from our skin and food, to every objects such as wax and soap, ...
Multiply scattered light represents a fundamental obstruction to optical imaging. In the following t...
This project represents a step towards the overarching aim of imaging scattering specimens. In such ...
This thesis describes new advanced optical methods to control light propagation through disordered n...
We demonstrate 3D time-of-flight imaging from a scattering target illuminated with a heralded single...
We measure the time-of-flight distributions of near-infrared photons emerging from thick scattering ...
This is the author accepted manuscript. The final version is available from nature Research via the ...
While traditional imaging systems directly measure scene properties, computational imaging systems a...
International audienceSpatio-temporal imaging of light propagation is very important in photonics be...
Ponència presentada a 3rd Biomedical Imaging and Sensing Conference, celebrada a Yokohama, Japó, 19-...
Imaging an object hidden behind a highly scattering medium is difficult since the wave has gone thro...
A simple upconversion scheme utilizing 40-fs pulses is shown to permit high-contrast imaging of obje...
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