One of the discoveries that fundamentally distinguished the emerging field of quantum physics from classical physics was the observation that matter behaves differently at the smallest scales. A key ...

For the first time, researchers from Tokyo University of Science have observed wave-like interference patterns from ...

Quantum physics overturned classical ideas by showing that matter behaves very differently at the ...

The same phenomenon was later confirmed for neutrons, helium atoms, and even large molecules, making matter-wave diffraction ...

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Experiments reveal that metallic nanoparticles thousands of atoms wide can exist in quantum superposition, providing a ...

Learn how 4D digital holographic microscopy provides real-time, non-contact measurement of MEMS micromirror deformation, ...

In the fractional quantum Hall effect, electrons in a strong magnetic field organize into collective states. Such states behave as quasiparticles, known as anyons, that carry a fraction of the ...

Can a small lump of metal be in a quantum state that extends over distant locations? A research team at the University of Vienna answers this question with a resounding yes. In the journal Nature, ...

In the future, quantum computers are anticipated to solve problems once thought unsolvable, from predicting the course of chemical reactions to producing highly reliable weather forecasts. For now, ...

The new research demonstrates for the first time that the wave nature of matter persists even at large scales, using massive ...