Electrons can be "kicked across" solar materials at almost the fastest speed nature allows, scientists have discovered, challenging long-held theories about how solar energy systems work. The finding ...

Researchers at University of Tsukuba have developed a noncontact vibration measurement method using an event camera, a sensing technology inspired by biological vision. By applying geometric analysis ...

The film explores the origins of sound through three primary sources: vibrating columns of air, vibrating surfaces, and vibrating strings. It demonstrates how sound is produced by examining a tuning ...

The Moon’s most famous “sound” was never heard by human ears. It was traced instead in jagged lines on Apollo-era seismographs, a slow fade of vibrations that seemed to go on far longer than anything ...

Scientists have discovered that electrons in solar materials can be launched across molecules almost as fast as nature allows, driven by tiny atomic vibrations.

A hundred years of physics tells us that collective atomic vibrations, called phonons, can behave like particles or waves. When they hit an interface between two materials, they can bounce off like a ...

Our understanding of the building blocks of the universe guides scientific advancements. This means that we must find ways to peek deeper and deeper into atoms and molecules. The Raschke Nano-Optics ...