The feat makes the microscopic world more tangible, while offering tantalizing opportunities for deeper investigations into ...

Scientists have directly observed molecules wiggling due to quantum effects, even at absolute zero. A powerful x-ray laser captured this elusive “fuzziness” in action, reshaping how we understand ...

Researchers have directly observed zero-point motion in complex molecules, capturing the precise quantum patterns of atoms ...

They captured the "dance of the atoms" by shining a "spotlight" on individual molecules and taking snapshots of their atoms - revealing each atom's precise choreography. Professor Till Jahnke from the ...

Scientists say they have achieved the "impossible" by directly measuring zero-point motion in a molecule at its lowest energy ...

Aug. 7, 2025 — The National Center for Supercomputing Applications and the University of Illinois Urbana-Champaign were awarded a $25.8 million contract from the U.S. National Geospatial-Intelligence ...