MIT researchers used ultracold atoms to isolate the quantum trade-off between wave interference and particle path detection.

Scientists have cracked open a mysterious layer inside batteries, using cutting-edge 3D atomic force microscopy to capture ...

The giant atoms naturally turn into a time crystal. This discovery is not just intriguing for the study of the Rydberg atoms, which have been known for less than a decade; it is also a completely new ...

Imagine having a super-powered lens that uncovers hidden secrets of ultra-thin materials used in our gadgets. Research led by ...

Led by Prof. Dr. Nicola Pinna and Dr. Patrícia Russo from the Department of Chemistry at Humboldt-Universität zu Berlin (HU), ...

At the edge of two exotic materials, scientists have discovered a new state of matter called a "quantum liquid crystal" that ...

Though atomic nuclei are often depicted as static clusters of protons and neutrons (nucleons), the particles are actually ...

A relatively small detector caught neutrinos from a nuclear reactor using a technique known as coherent scattering ...

Physicists have caught neutrinos from a nuclear reactor using a device weighing just a few kilograms, orders of magnitude ...

Speculative elements may not be necessary to explain the cosmos. A team of researchers, led by Raúl Jiménez, an ICREA scientist at the University of Barcelona’s Institute of Cosmos Sciences (ICCUB), ...

ConspectusPhotovoltaics (PVs) are currently the most economical and location-independent source of electricity generation, and their demand is growing rapidly as a sustainable renewable energy source.