The second law of thermodynamics, a cornerstone of modern physics, states that entropy—a measure of disorder—never spontaneously decreases. It governs everything from the efficiency of engines to the ...

Researchers from Nagoya University in Japan and the Slovak Academy of Sciences have unveiled new insights into the interplay ...

Protons are far from simple particles — they are swirling cauldrons of quarks, gluons, and quantum entanglement. Scientists ...

For over a century, the Maxwell’s Demon paradox has haunted physics. This thought experiment suggests that a tiny, ...

Philip Ball looks at how a little-known paper by Niels Bohr demonstrates the turmoil in physics on the brink of quantum ...

For over a century, quantum mechanics and Einstein’s general relativity have stood as the cornerstones of modern physics, yet ...

In a groundbreaking discovery, researchers from Nagoya University in Japan and the Slovak Academy of Sciences have unveiled ...

The famous second law of thermodynamics says that the world gets more and more disordered when random chance is at play. Or, ...

New research shows that the second law of thermodynamics, which states entropy increases over time, also applies to closed ...

Quantum computers process multiple possibilities at once, unlike traditional computers. Quantum properties like entanglement ...

An analog-digital approach to quantum simulation could lay the foundations for the next generation of supercomputers to ...

The dream-come-true scenario of the existence of quantum computers transforming our day-to-day lives is a nightmare scenario ...