Physicists have built a quantum gas that behaves nothing like the substances we are used to, and that is exactly why it is ...

Researchers at TU Wien have developed a one-dimensional “quantum wire” using a gas of ultracold atoms. In this system, both ...

John Clarke (University of California, Berkeley), Michel H. Devoret (Yale University, Connecticut and University of California, Santa Barbara), and John M. Martinis (University of California, Santa ...

John Clarke, Michel Devoret and John Martinis’s experiments in the 1980s proved that the strange laws of quantum mechanics could govern not just subatomic particles but entire circuits visible to the ...

Prize awarded for developing 'next generation of quantum technology' 'I'm completely stunned,' says UC Berkeley professor Quantum technology ubiquitous in everyday electronics Physics is second prize ...

Trio led experiments that paved the way for the next generation of quantum technologies The Nobel prize in physics 2025 has been awarded to British, French and American scientists for pioneering ...

STOCKHOLM, Sweden ‒ U.S.-based scientists John Clarke, Michel Devoret and John Martinis shared the 2025 Nobel Prize in Physics for "experiments that revealed quantum physics in action," paving the way ...

The 2025 Nobel prize in physics has been awarded to John Clarke, Michel Devoret and John Martinis for their work on showing how quantum particles can mysteriously tunnel through matter, a process that ...

It’s one thing when a respected scientist has a novel idea of what dark matter or dark energy might be, or what could explain spooky quantum phenomena like entanglement and superpositions. But the ...

In the everyday world that humans experience, objects behave in a predictable way, explained by classical physics. One of the important aspects of classical physics is that nothing, not even ...

Classical physics theories suggest that when two or more electromagnetic waves interfere destructively (i.e., with their electric fields canceling each other out), they cannot interact with matter. In ...

The famous Schrödinger’s Cat thought experiment is a simple example of how quantum systems give rise to classical “reality.” But is such an outcome inevitable? A new study, relying on the “many worlds ...