Assistant Professor of Physics Eduardo da Silva Neto and his colleagues across the globe have discovered that electrons behave independently from other atomic particles in high-temperature ...

Atoms are mostly empty space; if the nucleus were a grain of sand, electrons would be hundreds of meters away. In fact, 99.999% of an atom is void, making their structure hard to grasp.

Or the electrons could be knocked out of position if a charged particle passed by. Bohr turned to Planck's quantum theory to explain the stability of most atoms.

For the first time, scientists visualized how electrons behave during a chemical reaction, which could help reduce unwanted byproducts in future chemistry.

Researchers at Johannes Gutenberg University Mainz (JGU) and the Helmholtz Institute Mainz (HIM) have developed a novel ...

Machine learning reveals how strongly interacting electrons behave at atomic level Machine learning helps solve a puzzle of how strongly interacting electrons behave at atomic level Date: June 26 ...

Flat bands once considered inactive are now shaping quantum behaviour in a superconducting material called kagome due to its unique atomic structure.

Quantum researchers at Purdue are advancing an approach that could improve the resolution of nuclear magnetic resonance (NMR) spectroscopy to the atomic scale and may also have applications in ...

Intercrystals” could pave the way toward greener electronics and next-generation quantum technologies. Scientists at-New ...

Excited electrons. Image Credit: ETH Zurich, Nuri Yazdani Halide perovskite minerals are integral to the functioning of solar cells and quantum technologies due to their exceptional optical properties ...