Using the world’s most powerful X-ray laser, researchers have captured the hidden, never-ending vibrations of atoms inside ...

With a suite of reimagined instruments at SLAC's LCLS facility, researchers see massive improvement in data quality and take ...

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 ...

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

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 ...

Atoms never stay still. Even in their lowest energy state, they vibrate due to quantum effects. Now, for the first time, ...

FRANKFURT. Most of us find it difficult to grasp the quantum world: According to Heisenberg's uncertainty principle, it's like observing a dance ...

Brookhaven National Laboratory have discovered that the size of catalytic nanoparticles determines how their shape and ...

Transition metal diborides (TMB2) are materials of choice for the applications in hypersonic vehicles and scramjet engines ...

Wafer-scale InSe transistors with record electron mobility and low power use could power the next generation of AI chips.

Scientists have imaged atomic thermal vibrations for the first time, revealing hidden patterns that could redefine quantum ...