A hybrid microscope allows scientists to simultaneously image the full 3D orientation and position of an ensemble of molecules, such as labeled proteins inside cells. The microscope combines ...

Intensity-distribution calculation in a microscope imaging system is extremely significant for imaging resolution estimation. However, existing estimation methods are either overly complicated or have ...

Recently, however, a team at the University of Strathclyde developed a workaround they say both lowers the OpenFlexure design’s total cost, and makes it the first completely 3D-printed microscope.

The images are acquired at 10 frames per second. As the microscope stage is raised, images of the test sample are assembled layer-by-layer into a stack, resulting in a 3D model.

Using sheets of light to scan cells, a new microscope can capture real-time 3D videos of what's happening inside cells down to the molecular level—feat once thought impossible. The inventors of ...

A team at the Harvard School of Engineering and Applied Sciences (SEAS) has come up with a promising new way to create 3D images from a stationary camera or microscope with a single lens.

A new microscope created by researchers at Universidad Carlos III de Madrid has the ability to take fast 3D images, making it easier to observe cells in living animals over time. For example ...

Model depicting several axons (blue, purple and green). Isotropic pixels of 10 x 10 x 10 nm (x,y,z); Reconstructed volume 15.00 um x 12.9 um x 10.4 µm (1040 slices).

Top level researchers and high-school science students alike have long been restricted by the tradeoffs of traditional microscopy: either you can look at live cells at low resolutions, or you can ...