Add to ORKGWe describe a method for tracking the position of small features in three dimensions from images recorded on a standard microscope with an inexpensive attachment between the microscope and the camera. The depth-measurement accuracy of this method is tested experimentally on a wide-field, inverted microscope and is shown to give approximately 8 nm depth resolution, over a specimen depth of approximately 6 µm, when using a 12-bit charge-coupled device (CCD) camera and very bright but unresolved particles. To assess low-flux limitations a theoretical model is used to derive an analytical expression for the minimum variance bound. The approximations used in the analytical treatment are tested using numerical simulations. It is concluded that ap...
The distance separating two biomolecules in close proximity is an important determinant of the natur...
A new single-aperture 3D particle-localization and tracking technique is presented that demonstrates...
Super-resolution imaging based on single molecule localization of cellular structures on nanometer s...
We describe a method for tracking the position of small features in three dimensions from images rec...
We demonstrate nanometer-level localization accuracy of a single fluorescent emitter in three dimens...
The spatial resolution of conventional optical microscopy is limited by diffraction to transverse an...
AbstractCalculation of the centroid of the images of individual fluorescent particles and molecules ...
Imaging volumes as thick as whole cells at three-dimensional (3D) super-resolution is required to re...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
Imaging volumes as thick as whole cells at three-dimensional (3D) super-resolution is required to re...
Recent technological advances have rendered widefield fluorescence microscopy as an invaluable tool ...
A three-dimensional (3D) resolution measure for the conventional optical microscope is introduced wh...
International audienceWe have developed a 3D super-resolution microscopy method that enables deep im...
Single molecule tracking in three dimensions (3D) in a live cell environment holds the promise of re...
From an acquired image, single molecule microscopy makes possible the determination of the distance ...
The distance separating two biomolecules in close proximity is an important determinant of the natur...
A new single-aperture 3D particle-localization and tracking technique is presented that demonstrates...
Super-resolution imaging based on single molecule localization of cellular structures on nanometer s...
We describe a method for tracking the position of small features in three dimensions from images rec...
We demonstrate nanometer-level localization accuracy of a single fluorescent emitter in three dimens...
The spatial resolution of conventional optical microscopy is limited by diffraction to transverse an...
AbstractCalculation of the centroid of the images of individual fluorescent particles and molecules ...
Imaging volumes as thick as whole cells at three-dimensional (3D) super-resolution is required to re...
Single-Molecule Localization Microscopy is an optical imaging paradigm which provides computational ...
Imaging volumes as thick as whole cells at three-dimensional (3D) super-resolution is required to re...
Recent technological advances have rendered widefield fluorescence microscopy as an invaluable tool ...
A three-dimensional (3D) resolution measure for the conventional optical microscope is introduced wh...
International audienceWe have developed a 3D super-resolution microscopy method that enables deep im...
Single molecule tracking in three dimensions (3D) in a live cell environment holds the promise of re...
From an acquired image, single molecule microscopy makes possible the determination of the distance ...
The distance separating two biomolecules in close proximity is an important determinant of the natur...
A new single-aperture 3D particle-localization and tracking technique is presented that demonstrates...
Super-resolution imaging based on single molecule localization of cellular structures on nanometer s...