The simulation of strongly interacting many-body systems is a key objective of quantum physics research, as it can help to ...

Real particles are lumps of energy that can be "seen" or detected by appropriate instruments; this feature is what makes them ...

Virtual particles exploit the natural fuzziness of the subatomic world, where if these ephemeral particles live briefly enough, they can also briefly borrow their energy from empty space. The haziness ...

How did the universe come into being? There are a multitude of theories on this subject. In a Physical Review Letters paper, ...

A single equation found on a Babylonian clay tablet, written nearly four millennia ago, reveals a mathematical insight eerily ...

If these knots had a slight bias toward matter over antimatter, their unraveling could help explain the matter-antimatter ...

Why do so many turn to quantum physics to explain mystical experiences? This post explores how Quantum Field Theory has ...

John Clarke, Michel H. Devoret and John M. Martinis shared the 2025 Nobel Prize in Physics for their work showing how bizarre ...

A new scientific theory on solar tide effects has dramatically improved the accuracy of calculating how much faster clocks ...

It was put on Webb to diagnose and measure any blur in its images. Even nanometres of distortion in Webb’s 18 hexagonal ...

Black holes are so strange that physicists have long wondered if they are quite what they seem. Now we are set to find out if ...

The Nobel Prize in Physics for 2025 honors scaled-up quantum physics—while sidestepping controversies swirling around quantum ...