Extremely cold atoms have been nudged to self-magnify their quantum states so they can be imaged in unprecedented detail. This could help researchers better understand what quantum particles do in odd ...

A ball tossed into the air follows a path that classical physics can track with confidence. Shrink that ball down to the size ...

A new study by researchers at the Massachusetts Institute of Technology (MIT) now bridges ...

Scientists have made the first experimental observation of matter wave diffraction in a short-lived electron-positron atom.

Using a highly coherent positronium beam, the researchers observed clear diffraction patterns after transmission through a graphene film, confirming its wave-like behavior. One of the discoveries that ...

Environmental noise, here represented as a little demon, can affect the state of a quantum computer by changing the phases of various branches of its wave function in an unpredictable fashion; we call ...

Quantum mechanics continues to offer profound insights into the fundamental nature of matter and energy, and the use of special functions plays a critical role in obtaining exact analytical solutions ...

One of the discoveries that fundamentally distinguished the emerging field of quantum physics from classical physics was the observation that matter behaves differently at the smallest scales. A key ...

Only about 5% of the universe is composed of normal matter that we can directly observe, while the remaining 95% is widely ...

Quantum computing is often considered the next frontier for the tech sector. Unlike traditional computers, which still store zeros and ones separately in binary bits, quantum computers store them ...