Back to news page Increasing the speed of sensorless Adaptive Optics: phase diversity applied to fluorescence microscopy published on Sensorless Adaptive Optics (AO) for fluorescence microscopy In the last decade, multiple AO methods have been demonstrated in...
Back to news page Adaptive Optics enables deep imaging in 2-photon super-resolution structured illumination microscopy published on Super-resolution imaging of brain structures at large depths Super-resolution microscopy now enables to visualize fine neuronal...
Back to news page Studying brain function with Super-Resolution Microscopy published on Advancing synaptic imaging: the Blanpied Lab’s approach Understanding brain function, particularly at the level of neuronal synapses, is a complex and crucial endeavor in...
Back to news page Adaptive optics enhances image quality in white-light confocal microscopy published on Addressing aberrations in high-resolution microscopy In the paper published in Journal of Microscopy, researchers from Oxford’s adaptive optics group, led by...
Back to news page Boosting Neuroimaging: The Synergy of Adaptive Optics and Light-Sheet Fluorescence Microscopy published on As a new step towards better imaging solutions incorporating adaptive optics (AO), we recently demonstrated, in collaboration with several...
Back to news page Case study: revealing secrets of Nuclear Pore Complex (NPC) disassembly during cellular mitosis thanks to SMLM & AO combination published on In their quest to better understand the disassembly of NPCs during mitosis, the team of Prof. Ulrike...
