A new method developed at LMU overcomes fundamental resolution limits and may provide insights into high-temperature ...

The background: To understand how complex materials behave at the atomic level, physicists calculate what are known as ...

Fine particulate matter in the air or nanoparticles in water—a remarkable new technology developed at TU Wien makes it ...

When we think of charcoal or soot, we often picture a solid, inert substance. However, a significant portion of this "black carbon"—produced from wildfires, fossil fuel combustion, and biochar ...

This valuable study addressed a key question in epilepsy research: whether the recordings of very fast oscillations in the brain (>250Hz, fast ripples) reflect underlying pathology or might be a ...

Unpacking Carbon Dynamics in Urban Soils Urban greenspaces are vital for ecosystem function and carbon cycling in cities. Dissolved organic matter DOM is an active component of soil's carbon pool, ...

The Nicolet Summit X spectrometer, alongside the Everest diamond ATR setup, is a powerful FTIR system that can be installed ...

HOHHOT — At the Inner Mongolia Museum in North China, a relics restorer in a white coat maneuvers an X-ray fluorescence ...

Infrared (IR) spectroscopy is a precise analytical method that detects molecular vibrations, creating unique spectra for identifying functional groups and structures. It’s used in fields from ...

This study presents KEPT, an AI system that helps self-driving cars predict their own short-term path more safely by combining video understanding ...

Learn how laser, eddy and other displacement sensors work and how they plug into IIoT PdM systems. They’re game changers on ...