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Study suggests quantum coherence may persist at larger scales in open systems
A theoretical paper posted to arXiv proposes that quantum coherence, the fragile property that powers quantum computing and ...
Quantum computers, systems that process information leveraging quantum mechanical effects, could outperform classical ...
Quantum states are notoriously fragile, and can be destroyed simply through interactions, measurements, and exposure to their ...
Light moving through a tiny silicon structure does not look dramatic. It slips down narrow waveguides etched onto a chip, ...
Can a handful of atoms outperform a much larger digital neural network on a real-world task? The answer may be yes. In a ...
Interesting Engineering on MSN
Quantum system of just nine atoms outperforms network made up of thousands of nodes
For years, progress in artificial intelligence has followed a simple rule: make it bigger ...
Interesting Engineering on MSN
‘Blind spot’ moment when quantum order dies decoded as researchers find femtosecond chaos
Quantum systems don’t fail quietly; they collapse in a flash. In less time than ...
Scientists developed a theory linking mobile and static behaviors of a particle in a Fermi sea, explaining quasiparticles and quantum states. (Nanowerk News) A new unified theory connects two ...
A team led by LMU physicist Dmitri Efetov has developed a new device capable of directly observing hidden electron interactions in graphene at room temperature.
Our research focuses on Materials physics, Quantum technology, Soft & living matter, and Advanced energy solutions. Topics extend from fundamental research to important applications. We educate future ...
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