Their work introduces a new concept called q-desics, short for quantum-corrected paths through space–time. These paths ...

For more than a century, physics has treated space and time as the smooth stage on which the universe unfolds, a flexible ...

Researchers demonstrate that by shaping the spatial and temporal structure of photons, they can engineer customized quantum states suited for next-generation communication, sensing, and imaging ...

For more than a century, gravity and quantum physics have stubbornly resisted a common language, one describing the smooth ...

Quantum gravity challenges the classical notion of spacetime by positing that the smooth, continuous fabric described by general relativity may arise from more fundamental, non-spatiotemporal entities ...

Let’s talk about quantum gravity experiments that can be done here on Earth! If we discover how to connect quantum mechanics with general relativity we’ll pretty much win physics. There are multiple ...

A South Korean physicist has proposed a theoretical framework that could support the unification of quantum mechanics and the ...

Hoboken, N.J., July 14, 2025 — Quantum networking is being rapidly developed world-wide. It is a key quantum technology that will enable a global quantum internet: the ability to deploy secure ...

Two blind spots torture physicists: the birth of the universe and the center of a black hole. The former may feel like a moment in time and the latter a point in space, but in both cases the normally ...

In the end, the Universe becomes a place where gravity and quantum physics slowly turn all mass into faint streams of particles.

The field of quantum deformations explores systematic modifications of classical symmetry algebras that underpin our understanding of spacetime. These deformations introduce a quantum parameter – ...