The world of quantum physics is already mysterious, but what happens when that strange realm of subatomic particles is put ...

Physicists have achieved a breakthrough by using a 58-qubit quantum computer to create and observe a long-theorized but never ...

Researchers at Hiroshima University have developed a realistic, highly sensitive method to detect the Unruh effect—a ...

Since the 1990s, evidence has been growing that quantum computers should be able to solve a range of particularly complex ...

Recent progress on both analog and digital simulations of quantum fields foreshadows a future in which quantum computers ...

Stress is a very real factor in the structure of our universe. Not the kind of stress that students experience when taking a ...

When mathematicians revived ignored mathematical structures, they found that overlooked particles, called "neglectons," could ...

The standard model of particle physics represents the most comprehensive theory about fundamental or subatomic particles and forces in the universe. The model describes how matter and antimatter ...

Google's 58-qubit quantum computer has successfully created and observed a previously theoretical quantum phase of matter, ...

Lauda and his colleagues solve some of the problems with topological qubits by using a class of theoretical particles they ...

Aaron Lauda has been exploring an area of mathematics that most physicists have seen little use for, wondering if it might have practical applications. In a twist even he didn’t expect, it turns out ...

As a trained physicist and now a university president, I am doubly excited by the acceleration in quantum computing and the possibilities quantum thinking offers for elevated understanding, innovation ...