In the "EXplained" series, we provide insights into our university's seven Clusters of Excellence. One of these is the Munich Center for Quantum ...
A glittering hunk of crystal gets its iridescence from a highly regular atomic structure. Frank Wilczek, the 2012 Nobel ...
Discover how quantum computing is solving problems in minutes that once took millions of years, reshaping AI, medicine, and ...
In a lab in Hangzhou, China, a small chip may have just passed one of the most difficult honesty tests in physics. The test ...
In a levitation breakthrough, scientists have created a virtually frictionless, macroscale levitating disk that requires no ...
Breakthrough from Princeton team reveals exotic quantum state that coherently blends many-body correlation and quantum ...
Quantum Computing Nobel Prize honors John Clarke, Michel Devoret, and John Martinis for their pioneering work in macroscopic ...
Go visit a sacred ancient site, if possible one featuring a high density of megalithic architecture, and when you get back tell me, hand on heart, you didn’t feel something. Modern archaeology, for ...
A team at the University at Buffalo has made it possible to simulate complex quantum systems without needing a supercomputer.
Quantum networks, systems consisting of connected quantum computers, quantum sensors or other quantum devices, hold the ...
John Clarke, Michel H. Devoret and John M. Martinis have been awarded the Physics Nobel Prize for their work on quantum ...
University of Cambridge alumnus Professor John Clarke has been awarded the 2025 Nobel Prize in Physics, alongside Michel H ...
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