A theoretical particle that travels faster than light, the tachyon has long intrigued physicists and fueled decades of ...

Behind many breakthroughs in science, there’s often a woman who didn’t follow the rules - she rewrote them. Whether it’s in a ...

An international collaboration sheds new light on the relationship between quantum theory and thermodynamics. The research group demonstrated that while the laws of quantum theory alone do not ...

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

Scattering takes place across the universe at large and miniscule scales. Billiard balls clank off each other in bars, the ...

Entanglement -- linking distant particles or groups of particles so that one cannot be described without the other -- is at the core of the quantum revolution changing the face of modern technology.

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 ...

Quantum computing is challenging everything we thought we knew about technology, time, and even human consciousness. Some scientists theorize that some of the ways quantum computers process ...

The young company holds some large contracts that fund its business. Its CEO thinks quantum computing will be commercially relevant by 2030. But there may be less risky ways for investors to gain ...

Sign up for CNN’s Wonder Theory science newsletter. Explore the universe with news on fascinating discoveries, scientific advancements and more. Scientists have ...

In simpler terms, the second law of thermodynamics means that things naturally tend to become more disordered over time.