The imaging resolution has long been constrained by the Abbe-Rayleigh diffraction limit. While the 2014 Nobel Prize recognized fluorescence microscopy, achieving single-shot, label-free far-field ...

Explore advances in protein imaging techniques and spatial proteomics. Learn how modern imaging tools reveal protein dynamics and organization in cells.

In 1873, Ernst Abbe proposed the famous diffraction limit theory, stating that the resolution of an optical system is limited by the light wavelength ...

Harvard University researchers have developed a cathodoluminescence-based multicolour electron microscopy technique that ...

Not all defects are visible with the same microscope. Explore how resolution, contrast, and signal interpretation shape semiconductor failure investigations.

Atoms measure roughly 0.1 nanometers across, a scale so small that scientists spent more than six decades developing ...

Now researchers at the Massachusetts Institute of Technology have found a way to use terahertz light to watch a superconductor move in a new way. The work, led by MIT physicist Nuh Gedik and MIT ...

After decades of debates over the existence and properties of one of the world’s ...

Attosecond pulses enable sub-femtosecond studies of ultrafast electron dynamics. Since 2001, pulse durations have shortened ...

Crystalline polymers assembled inside tumor cell lysosomes rupture membranes, release iron, and trigger immune-activating ...

A pulsed thermal shock technique produces micron-thick flexible graphite films ten times faster than conventional methods without sacrificing crystalline quality or thermal performance.