A joint research team from the Institute of Metal Research (IMR) of the Chinese Academy of Sciences and the Songshan Lake Materials Laboratory has achieved precise control and real-time observation of ...

A device smaller than a grain of dust is emerging as a surprisingly powerful candidate to reshape how quantum computers are ...

Alternatively, data from all transducers can be used while limiting the focal depth, allowing more transmit-receive pulses to ...

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, ...

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

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 and transforms inside real-world materials has long been treated as a black ...

Research presented by Professor Cecilia Johansson of Imperial College London has linked early type I interferon signalling in the lower respiratory tract to antiviral control and to a reduced ...

Researchers at the Carnegie Mellon University have developed a new type of lens that can keep all parts of a scene in focus.

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 ...

Efficiently identify and map tire fillers with streamlined material analysis—explore the details in this application note.