Fraunhofer IAF presents compact integrated quantum sensor at World of Quantum 2025 The highly integrated vector magnetometer ...

The principle of wave-particle duality is crucial in quantum physics, highlighting the dual nature of light and matter and ...

Increasing interference to navigation satellite systems has spurred the creation of a joint plan to mitigate air transport ...

Fraunhofer IAF is presenting the latest version of its compact integrated quantum magnetometer at World of Quantum in Munich, ...

ANITA was placed in Antarctica because there is little chance of interference from other signals. To capture the emission ...

G od, Albert Einstein famously declared, does not play dice. It’s a pithy statement, but a revealing one: to the famously ...

Researchers have determined how to use magnons—collective vibrations of the magnetic spins of atoms—for next-generation ...

Scientists have developed a groundbreaking quantum interferometry tool that achieves nanometer-scale precision in challenging ...

Physicists at the University of Swansea in the UK have used mirrors to significantly reduce the so-called quantum noise, which affects the state and behavior of quantum particles. When measuring these ...

Steven Allan Kivelson is the Prabhu Goel Family Professor of Physics at Stanford University. Peter F. Michelson is the Luke Blossom Professor in the School of Humanities and Sciences and a ...

Niels Bohr then elaborated on wave-particle duality, ushering in one of the cornerstones of modern physics. The new approach from the research team explores the concept of bright and dark modes. In ...

Classical physics theories suggest that when two or ... Their paper, published in Physical Review Letters, proposes that classical interference arises from specific two-mode binomial states ...