By influencing the nucleus of a titanium atom, they have created new opportunities for storing quantum information.

atom by atom, from magnetic titanium on top of a magnesium oxide substrate. They then carefully engineered how atoms interacted inside the material with the goal of birthing a new state of quantum ...

The Daniel K. Inouye Solar Telescope, the world's most powerful solar telescope, operated by the NSF National Solar ...

Astronomers have achieved a major breakthrough in solar physics by successfully producing detailed maps of the Sun's coronal magnetic fields. This milestone promises to enhance our understanding of ...

Researchers from Delft University of Technology in The Netherlands have been able to initiate a controlled movement in the very heart of an atom. They caused the atomic nucleus to interact with one of ...

When different quantum states combine, new collective states of matter can emerge. In the quantum realm, combining components ...

Scientists have directly mapped the strength of the magnetic field of the solar corona — the outer part of the sun’s ...

Researchers from Delft University of Technology in The Netherlands have been able to initiate a controlled movement in the ...

When Jacklyn Gates graduated from Area Senior High in 2000, she thought she might want to be a veterinarian. That was until ...

Determining the magnetic field of a single atom In this configuration, Esat explains that the molecule is a spin ½ system, and in the presence of a magnetic field, it behaves like a two-level quantum ...

The Frontier supercomputer simulated magnetic responses inside calcium-48, depicted by red and blue spheres. Insights into ...

In 1543, Copernicus boldly proposed the heliocentric model, asserting that the Earth revolved around the sun. Despite facing ...