Quantum networking is being rapidly developed world-wide. It is a key quantum technology that will enable a global quantum ...

This is no ordinary clock — it's a highly precise instrument built to put Einstein’s theories of special and general relativity to the test.

By measuring the tiny shifts of oscillation frequency in these ultra-precise clocks, researchers are able to explore the influences of Einstein's theory of relativity on quantum systems.

The reconciliation of general relativity and quantum mechanics is one of the biggest challenges in science, one that continues to elude us. Now, a new study by Anjun Chu and colleagues has ...

Special relativity could be harnessed to build a novel quantum computer, and creating it this way could let us use machine learning to deepen our understanding of the quantum realm.

But thanks to the complexities of gravitational force and relativity, clocks in the Artemis Base Camp will move differently than those back home.

In a bizarre repercussion of Albert Einstein's Special Theory of Relativity, objects traveling close to the speed of light appear flipped over.

Researchers have explored the interplay between gravitational effects and quantum interactions in optical atomic clocks, revealing more about quantum entanglement in precision timekeeping.

By measuring the tiny shifts of oscillation frequency in these ultra precise clocks, researchers are able to explore the influences of Einstein’s theory of relativity on quantum systems.