Electrons are tiny and constantly in motion. How they behave in a crystal lattice determines key material properties: electrical conductivity, magnetism, or novel quantum effects. Anyone aiming to ...

Under the microscope, plankton becomes an unlikely star as artist Jess Holz documents their movements to highlight both their ...

Imaging-based single-cell physiological profiling holds great potential for uncovering fundamental bacterial cold shock response (CSR) mechanisms, but its application is impeded by severe focus drift ...

Multiferroic metals are materials that exhibit both electric polarization and magnetic order in the same crystal—a state ...

It’s far less gross than it sounds (we promise) and could have major implications for how we understand anatomy and disease ...

Measuring high aspect ratio and composite micro-trenches without damage is critical for advanced microfabrication, yet conventional coherence scanning interferometry often suffers from a low signal-to ...

In A Nutshell Researchers have launched a free, publicly accessible 3D atlas of real human organs that lets anyone zoom from whole-organ views down to near-cellular detail in a web browser. The scans ...

A new momentum microscope at Forschungszentrum Jülich makes electrons and their properties in solids visible. The instrument, developed entirely in Jülich, provides unprecedentedly insights into ...

A new type of molecule, not only never before seen but not even predicted, was created with the aid of quantum computers.

Imaging spectroscopic ellipsometry delivers nanometer-level sensitivity and spatial resolution, addressing the limitations of conventional metrology techniques.

The battle between two Springbok flyhalves could decide the war between the Bulls and Stormers in a campaign-shaping United ...

FDA approval supports US commercialization of TECNIS PureSee, an EDOF IOL for implantation during cataract surgery, with availability anticipated later in 2026. PureSee is positioned to preserve ...