In this thesis work, we present a novel stochastic microscopy technique based on Digital Holography for the 3D mapping of optical intensity distributions. We show that this far-field, wide-field, 3D microscopy can be turned into both a superresolution and a near-field imaging technique. To do so, we use metallic nanoparticles undergoing Brownian motion as stochastic local field probes that we localize in three-dimensions in order to overcome the diffraction limit. The random motion of the particles allows for a complete exploration of the sample. Beyond simple localization, the gold markers can actually be envisaged as extremely local electromagnetic field probes, able to scatter light into the far-field. The technique we propose here is therefore...
International audienceMeeting the nanometre resolution promised by super-resolution microscopy techn...
A number of coupled optical and electrochemical single particle techniques are employed for investig...
Controlled three-dimensional positioning of nanoparticles is achieved by delivering single fluoresce...
In this thesis work, we present a novel stochastic microscopy technique based on Digital Holography ...
In this thesis work, we present a novel stochastic microscopy technique based on Digital Holography ...
International audienceWe present a wide-field microscopy technique for the 3D mapping of optical int...
We present a new technique that combines off-axis Digital Holography and Dark Field Microscopy to tr...
International audienceWe report on the use of a thin diffuser placed in the close vicinity of a came...
In this thesis, we have developed a novel heterodyne digital holographic microscope combining the of...
In this thesis, we perform experimental measurements and data modelling to investigate spontaneous e...
International audienceIn-line digital holography is a valuable tool for sizing, locating and trackin...
Most of the microscopy techniques used to study biological samples or processes relies on the use of...
In this paper we demonstrate a new scheme for optical super-resolution, inspired, in-part, by PALM a...
This PhD focus on the development of 3D-REDSHOT, a two-photon microscope dedicated to 3D real-time s...
International audienceMeeting the nanometre resolution promised by super-resolution microscopy techn...
A number of coupled optical and electrochemical single particle techniques are employed for investig...
Controlled three-dimensional positioning of nanoparticles is achieved by delivering single fluoresce...
In this thesis work, we present a novel stochastic microscopy technique based on Digital Holography ...
In this thesis work, we present a novel stochastic microscopy technique based on Digital Holography ...
International audienceWe present a wide-field microscopy technique for the 3D mapping of optical int...
We present a new technique that combines off-axis Digital Holography and Dark Field Microscopy to tr...
International audienceWe report on the use of a thin diffuser placed in the close vicinity of a came...
In this thesis, we have developed a novel heterodyne digital holographic microscope combining the of...
In this thesis, we perform experimental measurements and data modelling to investigate spontaneous e...
International audienceIn-line digital holography is a valuable tool for sizing, locating and trackin...
Most of the microscopy techniques used to study biological samples or processes relies on the use of...
In this paper we demonstrate a new scheme for optical super-resolution, inspired, in-part, by PALM a...
This PhD focus on the development of 3D-REDSHOT, a two-photon microscope dedicated to 3D real-time s...
International audienceMeeting the nanometre resolution promised by super-resolution microscopy techn...
A number of coupled optical and electrochemical single particle techniques are employed for investig...
Controlled three-dimensional positioning of nanoparticles is achieved by delivering single fluoresce...