Add to ORKGSince its discovery by Abbe in 1873, the microscopy diffraction barrier has received a lot of attention. In this lecture, we discuss the principle of fundamentally breaking the diffraction barrier through reversible saturable optical (fluorescence) transitions (RESOLFT). © 2005 Optical Society of America
We introduce the concept of repeatedly exciting an excited state of a photostable fluorescent entit...
Fluorescence microscopy is an important and extensively utilised tool for imaging biological systems...
Diffraction-limited lens-based optical microscopy fails to discern fluorescent features closer than ...
Since its discovery by Abbe in 1873, the microscopy diffraction barrier has received a lot of attent...
We report the breaking of the diffraction resolution barrier in far-field fluorescence microscopy by...
Throughout the twentieth century, it was widely accepted that a light microscope relying on propagat...
Hochauflösende Fluoreszenzmikrospie durch Entvölkerung des Grundzustandes. Diese Arbeit ...
Subdiffraction fluorescence imaging is presented in a parallelized wide-field arrangement exploiting...
luorescence microscopy has become one of the most important biophysical tools for exploring molecula...
We present a plane-scanning RESOLFT [reversible saturable/switchable optical (fluorescence) transiti...
We demonstrate far-field fluorescence microscopy with a focal-plane resolution of 15-20 nm in biolog...
For decades, the power of far-field fluorescence microscopy has been hampered by the diffraction res...
This chapter discusses the simple yet powerful ideas which have allowed to break the diffraction res...
Subject to the diffraction limit, the resolution of conventional optical microscopy is constrained t...
Throughout the years, fluorescence microscopy has proven to be an extremely versatile tool for cell ...
We introduce the concept of repeatedly exciting an excited state of a photostable fluorescent entit...
Fluorescence microscopy is an important and extensively utilised tool for imaging biological systems...
Diffraction-limited lens-based optical microscopy fails to discern fluorescent features closer than ...
Since its discovery by Abbe in 1873, the microscopy diffraction barrier has received a lot of attent...
We report the breaking of the diffraction resolution barrier in far-field fluorescence microscopy by...
Throughout the twentieth century, it was widely accepted that a light microscope relying on propagat...
Hochauflösende Fluoreszenzmikrospie durch Entvölkerung des Grundzustandes. Diese Arbeit ...
Subdiffraction fluorescence imaging is presented in a parallelized wide-field arrangement exploiting...
luorescence microscopy has become one of the most important biophysical tools for exploring molecula...
We present a plane-scanning RESOLFT [reversible saturable/switchable optical (fluorescence) transiti...
We demonstrate far-field fluorescence microscopy with a focal-plane resolution of 15-20 nm in biolog...
For decades, the power of far-field fluorescence microscopy has been hampered by the diffraction res...
This chapter discusses the simple yet powerful ideas which have allowed to break the diffraction res...
Subject to the diffraction limit, the resolution of conventional optical microscopy is constrained t...
Throughout the years, fluorescence microscopy has proven to be an extremely versatile tool for cell ...
We introduce the concept of repeatedly exciting an excited state of a photostable fluorescent entit...
Fluorescence microscopy is an important and extensively utilised tool for imaging biological systems...
Diffraction-limited lens-based optical microscopy fails to discern fluorescent features closer than ...