Quantum mechanical effects are known to be easily disrupted by disturbances from the surrounding environment, commonly ...

At temperatures approaching absolute zero, most magnetic materials settle into tidy patterns. Their tiny magnetic moments, or spins, align in one of two ways: all pointing in the same direction in ...

Physicists at Boston University have achieved what amounts to a long-sought benchmark in quantum measurement: detecting the ...

Magnetic materials in a quantum spin liquid phase are of great interest in the pursuit of exotic state of matter and quantum ...

Quantum spin systems occupy a central role in understanding magnetic phenomena and phase transitions at the microscopic level. In these systems, intrinsic angular momentum (spin) interactions give ...

Scientists are closer to creating a quantum spin liquid, a state where electron spins stay dynamic even at near absolute zero, key for future quantum computing. (Nanowerk News) The future of computing ...

Magnetic materials in a quantum spin liquid phase are of great interest in the pursuit of exotic state of matter and quantum computation. But in the quantum realm, things are not always what they seem ...

Nanodiamond quantum sensors mounted on magnetic microbots achieve coherent spin control while moving freely through fluid, a ...

Researchers at Chalmers University of Technology have demonstrated that stacking two quantum materials on top of each other can flip electron spin at room temperature using tiny currents and no ...

A new room-temperature quantum device developed at Stanford uses twisted light and advanced materials to link photons and ...