Background. Matter-wave interferometry relies on the quantum behavior of ultracold atoms, which, at extremely low temperatures, act more like waves than particles.

Since its development 100 years ago, quantum mechanics has revolutionized our understanding of nature, revealing a bizarre ...

We say a message is incoherent when we can't make it out, or when it doesn't make sense. A scribbled note, a drunken argument ...

The photoelectric effect, first explained in 1905, transformed our understanding of how light interacts with matter. When ...

Noncommutative Quantum Mechanics: A framework in which space and/or momentum coordinates do not commute, leading to modifications in standard quantum behaviour and uncertainty relations.

This innovative approach uses quantum relative entropy, a concept from quantum information theory, to describe the interplay between spacetime geometry and matter. The role of entropy and the G-field ...

Quantum computing is truly a potential revolutionary technology that really has only caught on in the past few years. Rooted in quantum mechanics, which describes the behavior of matter and energy ...

To those unfamiliar with quantum mechanics, the achievement might seem minor. Yet in the world of quantum research, this moment is transformative. With the ability to create q ...

Microsoft describes its scientific breakthrough — enabling the creation of the world’s first “topological” qubit — in a research paper published Wednesday in the journal Nature. [Update ...

A century ago, science went quantum. To celebrate, physicists are throwing a global, year-long party. In 1925, quantum mechanics, the scientific theory that describes the unintuitive rules of ...