Researchers at CU Boulder have created a new type of magnetic field sensor using atoms, offering increased precision.

A new way to measure the temperatures of objects by studying the effect of their black-body radiation on Rydberg atoms has ...

A team of physicists and engineers at the University of Colorado Boulder has discovered a new way to measure the orientation of magnetic fields using what may be the tiniest compasses around—atoms.

A favourable feature of magnetometers with a small vapour cell is their reduced sensitivity ... of levels of spatial quantization in atoms. Application to the Stern and Gerlach and magnetic ...

Another important aspect of atomic vapor dynamics is the interaction of atoms with dielectric walls in submicron spectroscopic cells. Research has shown that collisions with these walls can quench ...

It has the potential to revolutionize quantum sensor technology. The research demonstrates the capabilities of trapped vapor atoms. These atoms can simultaneously measure minute variations in ...

Researchers developed a pyrene coating for graphene membranes, addressing delamination and enhancing device performance in ...

Eco-friendly alternatives to fossil fuels are venturing beyond Earth—and into space.

Solar wind has hit the moon’s surface for billions of years, implanting hydrogen atoms into its minerals ... hydrogen combines with iron oxides to create elemental iron and water vapor. This vapor can ...

Researchers from Lam Research, the University of Colorado Boulder, and Princeton Plasma Physics Laboratory (PPPL) investigated ways to speed up the cryogenic reactive ion etching process for 3D NAND ...