Ultrawide-bandgap semiconductors—such as diamond—are promising for next-generation electronics due to a larger energy gap ...

The year was 1900 and Max Planck was a young physicist working on the problem of blackbody radiation . This was an intense ...

Researchers have built a deep-ultraviolet microscope to study hard-to-analyze materials like diamond, offering a new way to probe their electronic and thermal properties at the nanoscale. This ...

A research team at POSTECH has developed a novel multidimensional sampling theory to overcome the limitations of flat optics.

Diamonds and similar materials have the quality to be transparent in visible and infrared light. To study the motion of ...

How life evolved is one of the central questions in science and has fascinated humans for centuries. Early Earth was undoubtedly a harsh environment, but we know surprisingly little about the ...

These are seen as a key component of next-generation electronics as they can handle higher voltages, operate at higher frequencies ... form of light was required: ultraviolet light.

The European Space Agency (ESA) has released an audio-visual representation of solar activity over the last three years, pulling data from its Solar Orbiter probe, which it runs with NASA.