Researchers at the University of Oxford have demonstrated a new type of quantum interaction using a single trapped ion. By creating and controlling increasingly complex forms of "squeezing" – ...
Nature has many rhythms: the seasons result from Earth's movement around the sun, the ticking of a pendulum clock results from the oscillation of its pendulum. These phenomena can be understood with ...
Researchers at Humboldt-Universität zu Berlin have developed a new method for trapping and controlling atoms near an ...
For the first time in quantum physics, Oxford researchers have demonstrated quadsqueezing, a complex fourth-order quantum interaction. The study introduces a novel method for controlling quantum ...
Imagine shining a flashlight across a dark room. You can predict exactly what the light will do: travel in a straight line ...
Theoretical physicists along with an experimental team have found evidence of a quantum spin liquid in a material known as pyrochlore cerium stannate. They achieved this by combining state-of-the-art ...
MIT physicists have taken the first-ever direct images of individual atoms interacting freely in space. Their findings, published in the journal Physical Review Letters, reveal hidden quantum ...
The spins of atoms (small arrows in circles) can be used to realize a quantum fox chasing a quantum rabbit. Researchers at the University of Basel have shown that quantum systems can have antagonistic ...
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