Add to ORKGimaging of activity in neural populations by objective-coupled planar illumination microscop
Investigation of the transient processes integral to neuronal function demands rapid and high-resolu...
A 3D wide-field fluorescence microscopy method is introduced based on optical astigmatism combined w...
Multiphoton laser scanning microscopy offers improved axial resolution over confocal microscopy for ...
SummaryUnraveling the functions of the diverse neural types in any local circuit ultimately requires...
Understanding information processing in the brain requires monitoring neuronal activity at high spat...
In recent years, optical sensors for tracking neural activity have been developed and offer great ut...
Understanding the mechanisms of perception, cognition, and behavior requires instruments that are ca...
AbstractIn recent years, optical sensors for tracking neural activity have been developed and offer ...
Neural tissue is organized in three-dimensional (3D) networks of neuronal and glial cell populations...
Information exchange between neural systems occurs at the level of populations of neurons. Thus in o...
We introduce a scanless optical method to image neuronal activity in three dimensions simultaneously...
Multiphoton microscopy is a powerful tool in neuroscience, promising to deliver important data on th...
Imaging neurons and neural circuits over large volumes at high speed and subcellular resolution is a...
International audienceMultiphoton microscopy is a powerful tool in neuroscience, promising to delive...
Optical imaging of neuronal activity offers new possibilities for understanding brain physiology. Th...
Investigation of the transient processes integral to neuronal function demands rapid and high-resolu...
A 3D wide-field fluorescence microscopy method is introduced based on optical astigmatism combined w...
Multiphoton laser scanning microscopy offers improved axial resolution over confocal microscopy for ...
SummaryUnraveling the functions of the diverse neural types in any local circuit ultimately requires...
Understanding information processing in the brain requires monitoring neuronal activity at high spat...
In recent years, optical sensors for tracking neural activity have been developed and offer great ut...
Understanding the mechanisms of perception, cognition, and behavior requires instruments that are ca...
AbstractIn recent years, optical sensors for tracking neural activity have been developed and offer ...
Neural tissue is organized in three-dimensional (3D) networks of neuronal and glial cell populations...
Information exchange between neural systems occurs at the level of populations of neurons. Thus in o...
We introduce a scanless optical method to image neuronal activity in three dimensions simultaneously...
Multiphoton microscopy is a powerful tool in neuroscience, promising to deliver important data on th...
Imaging neurons and neural circuits over large volumes at high speed and subcellular resolution is a...
International audienceMultiphoton microscopy is a powerful tool in neuroscience, promising to delive...
Optical imaging of neuronal activity offers new possibilities for understanding brain physiology. Th...
Investigation of the transient processes integral to neuronal function demands rapid and high-resolu...
A 3D wide-field fluorescence microscopy method is introduced based on optical astigmatism combined w...
Multiphoton laser scanning microscopy offers improved axial resolution over confocal microscopy for ...