Thermodynamics was built to describe steam engines and stars, yet the same equations now sit at the heart of quantum ...

Quantum experiments keep stripping away our everyday intuitions, replacing them with a picture of reality in which cause, effect and even “facts” depend on how we look. New tests of entanglement, ...

Researchers discovered that when atoms interact and remain entangled with light, they emit stronger, more coordinated bursts ...

Quantum thermal machines are devices that leverage quantum mechanical effects to convert energy into useful work or cooling, ...

Quantum computers will be able to assume highly complex tasks in the future. With superconducting quantum processors, however, it has thus far been difficult to read out experimental results because ...

For close to a century, scientists have been trying to marry Albert Einstein’s General Theory of Relativity and quantum theory—our two best bets on understanding the universe on a macroscopic and ...

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

As you begin your hybrid quantum approach, here are the advantages, use cases and limitations to keep in mind.

Quantum mechanics, the theory which rules the microworld of atoms and particles, certainly has the X factor. Unlike many other areas of physics, it is bizarre and counter-intuitive, which makes it ...

Why can’t a computer both play chess and recognize images familiar to most people? It’s a simple question that cuts to the core of the biggest challenges in computing today: Despite their immense ...