A new microscopy technique allows scientists to see single-atom-thick boron nitride by making it glow under infrared light.

Microscopy plays a pivotal role in modern biomedical research, enabling the visualization of fine structures in complex specimens. Fourier ptychographic microscopy (FPM) is a computational imaging ...

The depth-defying lens can focus on multiple objects at different distances.

A new method allows nearly perfect optical sharpness for scenes requiring a wide depth of field, with just two photos.

Researchers from Carnegie Mellon University's College of Engineering have proposed a new photography method that eliminates the need to choose between focusing on the foreground, midground, ...

Combining microscopy and machine-learning techniques leads to faster, more precise analyses of critical coating materials ...

Polarized light is one of the most powerful tools scientists have for peering inside matter, yet the way it twists, scatters ...

Through a novel combination of machine learning and atomic force microscopy, researchers in China have unveiled the molecular ...

Researchers at Carnegie Mellon University have developed a groundbreaking lens technology that enables a camera to focus on ...

New research offers clearer insight into how phase transitions unfold at the atomic scale in real materials. When ice turns into water, the change happens almost instantly. Once the melting ...

Imaging technology has transformed how we observe the universe—from mapping distant galaxies with radio telescope arrays to ...