A micrograph showing the operation of a ‘conveyor belt’ of atom arrays. At each step, a fresh array is created at the bottom, ...
A new study details how UNSW engineers created 'quantum entangled states' between two phosphorus atoms in silicon.
The Schwinger effect reveals how vacuum fluctuations can produce real particles under strong electric fields, now explored ...
Now, a team of researchers at Switzerland’s ETH Zürich and Spain’s Institute of Photonic Sciences in Barcelona has taken an ...
New measurements on Bose-Einstein condensate could help us better understand how objects transition from being quantum and ...
For the first time, researchers have mathematically proven that a quantum computer can solve a particular task faster than an ...
Perhaps for moments of quantum weirdness or when the characters are really jumping between different universes. This approach ...
Solana co-founder Anatoly Yakovenko recently predicted a “50/50” chance of a quantum computing breakthrough by 2030 and urged ...
Dark Matter remains one of the biggest mysteries in fundamental physics. Many theoretical proposals (axions, WIMPs) and 40 years of extensive experimental search failed to provide any explanation of ...
The implications of this silent revolution are profound: While AI conversations often focus on displacement, quantum ...
Kinetic energy has to do with the motion of an object—the faster it’s moving, the more kinetic energy it has. If you take a ...
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