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Enrique Rico Ortega and Sofia Vallecorsa explain how quantum computing will allow physicists to model complex dynamics, from ...
Quantum sensors have become important tools in low-energy particle physics. Michael Doser explores opportunities to exploit ...
Optical quantum clocks developed at the University of Adelaide have been proven to outperform GPS navigation systems by many ...
There are similarities and differences between what the company is talking about today and IBM's recent update of its roadmap ...
Vacuum is often thought of as empty, but in fact it is teeming with fleeting energy fluctuations—virtual photons popping in and out of existence that can interact with matter, giving rise to new, ...
A new platform for engineering chiral electron pathways offers potential fresh insights into a quantum phenomenon discovered by chemists—and exemplifies how the second quantum revolution is ...
My team at the University of Bristol is working on a means of building quantum-enabled inertial sensing systems (that is, sensors of acceleration and rotation) that rely on very cold rubidium atoms ...
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The Brighterside of News on MSNQuantum walks: What they are and how they can change the worldQuantum walks are changing the way scientists think about computation. They use the strange and powerful rules of quantum physics—such as superposition, interference, and entanglement—to solve ...
A key goal in quantum physics has been to design efficient simulators that can accurately replicate the dynamics of complex systems. Photonic systems, with their ability to control properties such as ...
Artificial Intelligence Computers normally can't see optical illusions — but a scientist combined AI with quantum mechanics to make it happen News By Peter Ray Allison published 28 October 2024 ...
Powered by continuing advances in magnetometry, gravimetry, optical lattice timekeeping, inertial sensing, electrometry, quantum-enhanced electro-microscopy and the emerging field of atomtronics ...
It is widely held that quantum simulation, employing ultracold fermionic atoms in optical lattices, can be the key to mapping out the low-temperature phase diagram of the FHM.
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