Researchers used IBM’s quantum computers to create scalable quantum circuits that simulate matter under extreme conditions, offering new insight into fundamental forces and the origins of the universe ...

A quantum "miracle material" could support magnetic switching, a team of researchers at the University of Regensburg and ...

One of these phenomena is "uncertainty" in the quantum world: The precision of measurement is inherently limited by quantum mechanical fluctuations. For example, zero-point fluctuation is the quantum ...

Recently, Professor Jianda Wu’s research team from the Tsung-Dao Lee Institute at Shanghai Jiao Tong University, in collaboration with Professor Jie Ma from the School of Physics and Astronomy and ...

The famous double slit experiment shows that particles can travel on two paths at the same time -- but only by looking at a lot of particles and analysing the results statistically. Now a ...

Quantum wires have a distinct electronic structure characterized by a series of discrete energy levels and a density of states that exhibits sharp peaks at the energy levels. This leads to enhanced ...

Subatomic particles such as quarks can pair up when linked by ‘strings’ of force fields — and release energy when the strings are pulled to the point of breaking. Two teams of physicists have now used ...

Breakthrough quantum computing research out of Germany could lead to a revolution in particle physics with implications for finance, economics, and cryptocurrency. It might be time for firms in the ...

A quantum 'miracle material' could support magnetic switching, a team of researchers has shown. A quantum "miracle material" could support magnetic switching, a team of researchers at the University ...

This recently discovered capability could help enable applications in quantum computing, sensing and more. While earlier studies (ACS Nano, "The Bulk van der Waals Layered Magnet CrSBr is a Quasi-1D ...