UCLA researchers have introduced a framework for synthesizing arbitrary, spatially varying 3D point spread functions (PSFs) ...

Engineers at the UCLA Samueli School of Engineering have introduced a universal framework for point spread function (PSF) engineering, enabling the synthesis of arbitrary, spatially varying 3D ...

A new diffractive network design enables real-time 3D and multispectral imaging without digital reconstruction or moving ...

This image shows a 3D super-resolution reconstruction of dendrites in primary visual cortex. (Image provided) ... Three-dimensional nanoscopy of whole cells and tissues with in situ point spread ...

This platform, called soTILT3D for single-objective tilted light sheet with 3D point spread functions (PSFs), offers significant advancements in super-resolution microscopy, enabling fast and ...

Optical sectioning enables precise 3D imaging by extracting signals in focus and eliminating out-of ... Images beside each system diagram represent the point spread function along the xz direction.

Scientists at Purdue University and collaborators say they have developed a new technology that allows the visualization of nanoscale structures inside whole cells. The team’s technology is ...

UCLA researchers have introduced a framework for synthesizing arbitrary, spatially varying 3D point spread functions (PSFs) using diffractive processors. This approach enables unique imaging ...