(From left to right): Mathieu Padlewski, Romain Fleury and Hervé Lissek standing with their metamaterial. More photos available in the press kit. What happens when a quantum physicist is frustrated by ...
Researchers at the University of Rochester have used surface acoustic waves to overcome a significant obstacle in the quest to realize a quantum internet. Surface acoustic waves are vibrations that ...
A quiet revolution is taking shape in the world of physics, and it doesn't rely on exotic particles or massive particle colliders. Instead, it begins with something much more familiar—sound.
(a) Schematics of the A-A stacking hexagonal lattice. (b) First Brillouin zone and the distribution of the Weyl points. The arrows show their shifts direction by changing the on-site energies of A and ...
A new quantum theory bridges two rival models of how impurities behave inside many-particle systems, resolving a problem that has challenged physicists for decades. The findings could reshape ...
Penn State researchers used a magnetic quantum material to reveal unusual electrical behavior that could lead to smarter ...
TU Wien has detected strong quantum entanglement for the first time in a centimeter-sized crystal of a strange metal.
The Lipkin-Meshkov-Glick model is a theoretical framework used to describe systems of many interacting spins in an external magnetic field. It has been widely applied to study quantum phase ...
What happens when a quantum physicist is frustrated by the limitations of quantum mechanics when trying to study densely packed atoms? At EPFL, you get a metamaterial, an engineered material that ...
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