Add to ORKGWe report on the generation of various hole-centered beams in the focal region of a lens and investigate their effectiveness to break the diffraction barrier in fluorescence microscopy by stimulated emission. Patterning of the phase of the stimulating beam across the entrance pupil of the objective lens produces point-spread-functions with twofold. fourfold, and circular symmetry, which narrow down the focal spot to 65-100 nm. Comparison with high-resolution confocal images exhibits a resolution much beyond the diffraction barrier. Particles that are only 65-nm apart are resolved with focused ligh
AbstractA new type of wide-field fluorescence microscopy is described, which produces 100-nm-scale s...
I present three projects all of which involve innovations in fluorescence microscopy. First I presen...
In this article, we describe a way to obtain beyond diffraction limited imaging capability behind a ...
We report on the generation of various hole-centered beams in the focal region of a lens and investi...
For decades, the power of far-field fluorescence microscopy has been hampered by the diffraction res...
We demonstrate far-field fluorescence microscopy with a focal-plane resolution of 15-20 nm in biolog...
Advances in bioimaging have revolutionized our ability to study life phenomena at a microscopic scal...
Advances in bioimaging have revolutionized our ability to study life phenomena at a microscopic scal...
Fluorescence microscopy is used extensively in life sciences and has lead to unique discoveries, yet...
<div><p>By overcoming the diffraction limit in light microscopy, super-resolution techniques, such a...
By overcoming the diffraction limit in light microscopy, super-resolution techniques, such as stimul...
We propose a method theoretically to break the diffraction limit and to improve the resolution in al...
Super-resolution fluorescence microscopy has become an important catalyst for discovery in the life ...
Super-resolution fluorescence microscopy has become an important catalyst for discovery in the life ...
We present a multi-color STED fluorescence microscope providing far-field optical resolution down to...
AbstractA new type of wide-field fluorescence microscopy is described, which produces 100-nm-scale s...
I present three projects all of which involve innovations in fluorescence microscopy. First I presen...
In this article, we describe a way to obtain beyond diffraction limited imaging capability behind a ...
We report on the generation of various hole-centered beams in the focal region of a lens and investi...
For decades, the power of far-field fluorescence microscopy has been hampered by the diffraction res...
We demonstrate far-field fluorescence microscopy with a focal-plane resolution of 15-20 nm in biolog...
Advances in bioimaging have revolutionized our ability to study life phenomena at a microscopic scal...
Advances in bioimaging have revolutionized our ability to study life phenomena at a microscopic scal...
Fluorescence microscopy is used extensively in life sciences and has lead to unique discoveries, yet...
<div><p>By overcoming the diffraction limit in light microscopy, super-resolution techniques, such a...
By overcoming the diffraction limit in light microscopy, super-resolution techniques, such as stimul...
We propose a method theoretically to break the diffraction limit and to improve the resolution in al...
Super-resolution fluorescence microscopy has become an important catalyst for discovery in the life ...
Super-resolution fluorescence microscopy has become an important catalyst for discovery in the life ...
We present a multi-color STED fluorescence microscope providing far-field optical resolution down to...
AbstractA new type of wide-field fluorescence microscopy is described, which produces 100-nm-scale s...
I present three projects all of which involve innovations in fluorescence microscopy. First I presen...
In this article, we describe a way to obtain beyond diffraction limited imaging capability behind a ...