Harvard and PSI scientists have managed to freeze normally fleeting quantum states in time, creating a pathway to control ...

Physicists at the University of Oxford have successfully simulated how light interacts with empty space—a phenomenon once ...

Using advanced computational modeling, a research team led by the University of Oxford, working in partnership with the ...

Fraunhofer IAF's semi-automated process for MOEMS-EC-QCLs enhances manufacturing efficiency, reducing costs and enabling real ...

An international research collaboration featuring scientists from the FAMU-FSU College of Engineering and the National High ...

By adapting mathematical techniques used in particle physics, researchers in Germany have developed an approach that could ...

Computer simulations of high-energy particles are pushing the boundaries of what we can learn about the interactions that ...

Pioneer of general relativity and gravitational-wave theories saw her work confirmed by observations 65 years later.

Scientists using an advanced form of the famous double-slit experiment have directly measured a single photon in two places ...

The new coherence-stabilization method improves quantum sensing by addressing decoherence, achieving greater sensitivity than ...

Researchers identify hierarchical moire patterns in 2D materials, enabling a tunable platform for designing next-generation quantum materials at the atomic scale.

Abstract: Tunneling of wave packages through resonant quantum systems presented in an S-matrix form is investigated. An arbitrary incident wave package can be written as the superposition of the ...