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In a recent feat that’s sparked excitement in quantum labs worldwide, Caltech researchers have managed to place atoms in a state of hyper-entanglement using precise laser-based optical tweezers. By ...

Rubidium atoms can behave unpredictably during atomic collisions, especially when exposed to specific laser light.

Scientists in China are exploring manufacturing at scales smaller than a nanometre, opening the door to novel devices with unprecedented performance. From super-fast quantum computers to new alloys ...

A compact optical lattice clock with a volume of 250 liters has been developed. The system includes a physics package for conducting spectroscopy on the clock transition within a vacuum chamber, ...

Physicists are getting closer to controlling single-molecule chemical reactions -- could this shape the future of pharmaceutical research? Controlling matter at the atomic level has taken a major step ...

Atomic manipulation and dynamics using scanning tunnelling microscopy (STM) have become pivotal in advancing our understanding of matter at the most fundamental scale. By utilising the exquisite ...

Researchers at Oak Ridge National Laboratory, along with other scientists, are taking small steps to create materials that could enable quantum leaps in computing speed, security in communications and ...

(Nanowerk News) Physicists are getting closer to controlling single-molecule chemical reactions – could this shape the future of pharmaceutical research? Controlling matter at the atomic level has ...

Physicists are Getting Closer to Controlling Single-Molecule Chemical Reactions – Could This Shape the Future of Pharmaceutical Research? An artist’s representation of a scanning tunnelling microscope ...