The interior of the vacuum chamber during a scattering experiment. The detector is shown in grey (top right) and the Au(111) gold surface is shown in yellow. The lines indicate the path of the ...

Xiaohui Xu, Juejun Wang, Nickel Blankevoort, Abdalghani Daaoub, Sara Sangtarash, Jie Shi, Chao Fang, Saisai Yuan, Lichuan Chen, Junyang Liu, Yang Yang, Hatef Sadeghi, Wenjing Hong Proceedings of the ...

Controlling quantum states with high precision—and entangling particles—has long been the goal of researchers pushing the boundaries of quantum technology. Although great strides have been made across ...

A single atom as a movable slit: Researchers realize Einstein's thought experiment in original form, observing ...

Molecules haven't been used in quantum computing, even though they have the potential to make the ultra-high-speed experimental technology even faster. Their rich internal structures were seen as too ...

In an exciting development for the field of quantum computing, a team of scientists from Harvard University has successfully trapped molecules to perform quantum operations, marking a significant leap ...

Waves don’t just shape oceans or ripple across a pond. They also shape the building blocks of our universe—light, sound, and even the tiny vibrations inside atoms and molecules. These vibrations, ...

Could buckyballs be holding new quantum mysteries, which unlock their potential for quantum information science? That’s what theoretical physicist Timur Tscherbul from the University of Nevada, Reno ...

The quantum rules shaping molecular collisions are now coming into focus, offering fresh insights for chemistry and materials science. (Nanowerk News) The quantum rules shaping molecular collisions ...