Quantum mechanics is rich with paradoxes and contradictions. It describes a microscopic world in which particles exist in a ...

A quantum state of matter has appeared in a material where physicists thought it would be impossible, forcing a rethink on the conditions that govern the behaviors of electrons in certain materials.

A team of researchers led by the University of Warwick has developed the first unified framework for detecting "spacetime ...

A study by physicists affiliated with the Foundational Questions Institute (FQxI) found that time ...

Quantum theory has long treated time as a silent backdrop, a parameter that never jitters even as particles flicker in and ...

Cosmology and quantum physics both offer tantalizing possibilities that we inhabit just one reality among many. But testing ...

Quantum squeezing is the generation of a quantum mechanical state whose uncertainty is less than the zero-point fluctuation. Precision measurement of an object with a quantum mechanical limit is vital ...

The Quantum theory describe the microscopic, or subatomic structure. Finding a theory of everything is the major unsolved problems in physics Antigravity Sigma ZG Matrix focuses on Quantum fluctuation ...

The Casimir effect, a striking manifestation of quantum fluctuations, arises from the zero‐point energy inherent in the electromagnetic field. Predicted originally by Hendrik Casimir, this phenomenon ...

A century-old thought experiment on wave–particle duality is brought into the laboratory using a single trapped atom ...

Quantum friction represents a subtle, yet profound force emerging from the interplay of quantum vacuum fluctuations and electromagnetic interactions between bodies in relative motion. Distinguished ...

A single nanoparticle made of glass (a white point near the center of the photo) is confined in an optical potential created with a focused laser beam. By detecting the light scattered by the ...