We discuss here the principles of a novel optical method in which the scanning of a laser spot around a fluorescent object is used to determine its shape, orientation, and fluorophore distribution. The scanning pattern is adapted to the shape of the object according to a feedback principle based on intensity modulation measurements. The modulation of the intensity with respect to the angular coordinate is used to keep the orbit centered on the object. The modulation induced by rapid oscillations of the orbit radius is used to measure the local distance from the surface with nanometer precision. We provide a model to describe the fundamental relationship between modulation and distance and discuss the range of validity of several approximate...
A method is described that takes advantage of the intermittency (“blinking”) in the fluorescence of ...
We present a development of a nanometrology system combining local probe microscopy and precise posi...
A novel method is presented for the rapid direct 3D visualization of the contact between two surface...
We discuss here the principles of a novel optical method in which the scanning of a laser spot aroun...
We developed a method to measure relative distances with nanometer accuracy of fluorescent particles...
AbstractCalculation of the centroid of the images of individual fluorescent particles and molecules ...
We present a novel fluorescence lifetime imaging microscopy technique to measure absolute positions ...
International audienceWe propose a simple method for determining the size of a transparent object ba...
A technique for measuring distances between two or more fluorophores spaced in the 10-100 nm range i...
We present a novel technique of far-field localization nanoscopy combining spectral precision distan...
[[abstract]]In this paper, a novel image-based method of distance measurement is proposed. Tradition...
In this work, we present an alternative optical method to determine the probe-sample separation dist...
We describe a novel method to track fluorescent particles in three dimensions with nanometre precisi...
A new method for in vitro and possibly in vivo ultrahigh-resolution colocalization and distance mea...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
A method is described that takes advantage of the intermittency (“blinking”) in the fluorescence of ...
We present a development of a nanometrology system combining local probe microscopy and precise posi...
A novel method is presented for the rapid direct 3D visualization of the contact between two surface...
We discuss here the principles of a novel optical method in which the scanning of a laser spot aroun...
We developed a method to measure relative distances with nanometer accuracy of fluorescent particles...
AbstractCalculation of the centroid of the images of individual fluorescent particles and molecules ...
We present a novel fluorescence lifetime imaging microscopy technique to measure absolute positions ...
International audienceWe propose a simple method for determining the size of a transparent object ba...
A technique for measuring distances between two or more fluorophores spaced in the 10-100 nm range i...
We present a novel technique of far-field localization nanoscopy combining spectral precision distan...
[[abstract]]In this paper, a novel image-based method of distance measurement is proposed. Tradition...
In this work, we present an alternative optical method to determine the probe-sample separation dist...
We describe a novel method to track fluorescent particles in three dimensions with nanometre precisi...
A new method for in vitro and possibly in vivo ultrahigh-resolution colocalization and distance mea...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
A method is described that takes advantage of the intermittency (“blinking”) in the fluorescence of ...
We present a development of a nanometrology system combining local probe microscopy and precise posi...
A novel method is presented for the rapid direct 3D visualization of the contact between two surface...
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