Add to ORKGConventional acquisition of three-dimensional (3D) microscopy data requires sequential z scanning and is often too slow to capture biological events. We report an aberration-corrected multifocus microscopy method capable of producing an instant focal stack of nine 2D images. Appended to an epifluorescence microscope, the multifocus system enables high-resolution 3D imaging in multiple colors with single-molecule sensitivity, at speeds limited by the camera readout time of a single image
Abrahamsson S, Blom H, Agostinho A, et al. Multifocus structured illumination microscopy for fast vo...
A conventional microscope produces a sharp image from just a single object-plane. This is often a li...
Fluorescence microscopy provides an unparalleled tool for imaging biological samples. However, produ...
Conventional acquisition of three-dimensional (3D) microscopy data requires sequential z scanning an...
Due to the classical conflict between spatial and temporal resolution, microscopy studies of fast ev...
Acquisition speed in high-resolution imaging in three dimensions (3D) remainsa major challenge in mo...
Multifocus microscopy (MFM) allows high-resolution instantaneous three-dimensional (3D) imaging and ...
One of the key frontiers in optical imaging is to maximize the spatial information retrieved from a ...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
The conventional optical microscope is an inherently two-dimensional (2D) imaging tool. The objectiv...
In this paper, we present a new multi-focus microscope (MFM) system based on a phase mask and HiLo a...
Simultaneous imaging of multiple labels in tissues is key to studying complex biological processes. ...
Optical microscopes allow us to study highly dynamic events from the molecular scale up to the whole...
The distance separating two biomolecules in close proximity is an important determinant of the natur...
In recent years, the confocal and two photon microscopes have become ubiquitous tools in life scienc...
Abrahamsson S, Blom H, Agostinho A, et al. Multifocus structured illumination microscopy for fast vo...
A conventional microscope produces a sharp image from just a single object-plane. This is often a li...
Fluorescence microscopy provides an unparalleled tool for imaging biological samples. However, produ...
Conventional acquisition of three-dimensional (3D) microscopy data requires sequential z scanning an...
Due to the classical conflict between spatial and temporal resolution, microscopy studies of fast ev...
Acquisition speed in high-resolution imaging in three dimensions (3D) remainsa major challenge in mo...
Multifocus microscopy (MFM) allows high-resolution instantaneous three-dimensional (3D) imaging and ...
One of the key frontiers in optical imaging is to maximize the spatial information retrieved from a ...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
The conventional optical microscope is an inherently two-dimensional (2D) imaging tool. The objectiv...
In this paper, we present a new multi-focus microscope (MFM) system based on a phase mask and HiLo a...
Simultaneous imaging of multiple labels in tissues is key to studying complex biological processes. ...
Optical microscopes allow us to study highly dynamic events from the molecular scale up to the whole...
The distance separating two biomolecules in close proximity is an important determinant of the natur...
In recent years, the confocal and two photon microscopes have become ubiquitous tools in life scienc...
Abrahamsson S, Blom H, Agostinho A, et al. Multifocus structured illumination microscopy for fast vo...
A conventional microscope produces a sharp image from just a single object-plane. This is often a li...
Fluorescence microscopy provides an unparalleled tool for imaging biological samples. However, produ...