TU Wien researchers have uncovered a quantum twist to the paths particles take through spacetime — one that could finally ...

For more than a century, physicists have been trying to reconcile the smooth geometry of gravity with the jittery ...

A recent experiment at Fermilab has delivered intriguing results that challenge standard predictions, adding fuel to the ongoing quest for quantum gravity. These findings, which involve the behavior ...

It is something like the "Holy Grail" of physics: unifying particle physics and gravitation. The world of tiny particles is described extremely well ...

Quantum theory fails to explain how the reality we experience emerges from the world of particles. A new take on quantum ...

The force we experience most intimately remains the most mysterious. Physicists understand how vast migrations of particles called photons light up our homes, and how swarms of “gluon” particles hold ...

Researchers at TU Wien have integrated quantum physics with general relativity, revealing significant departures from ...

What might the second quantum revolution mean for science, technology and our understanding of reality itself?

A new study suggests that gravity could quantum-entangle particles even if it remained classical.

As physicists search for a theory of quantum gravity, new results show that classical gravity can still interact with quantum fields to allow matter to become entangled. A new discovery suggests ...

Albert Einstein’s general theory of relativity does a great job at explaining gravity but it is thought to be incomplete ...