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Hitting the quantum 'sweet spot': Researchers find best position for atom qubits in silicon
Hitting the quantum 'sweet spot': Researchers find best position for atom qubits in silicon
Australian researchers have found the ideal position for qubits in silicon - a development that will help them to scale up atom-based quantum computers.
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Purdue-UNSW team wins DARPA QUEST Award
Purdue-UNSW team wins DARPA QUEST Award
A team led by Prof. Zubin Jacob will develop a new theoretical framework that combines quantum properties of light and condensed matter. New topological phases of matter, their spin photonic properties and Casimir forces will be investigated as part of this DARPA program.
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Flip-flop qubits: Radical new quantum computing design invented
Flip-flop qubits: Radical new quantum computing design invented
Radical new architecture for quantum computing, based on novel 'flip-flop qubits,' promises to make the large-scale manufacture of quantum chips dramatically cheaper and easier
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Tuning into quantum: Scientists unlock signal frequency control of precision atom qubits
Tuning into quantum: Scientists unlock signal frequency control of precision atom qubits
The frequency spectrum of an engineered molecule. The three peaks represent three different configurations of spins within the atomic nuclei, and the distance between the peaks depends on the exact distance between atoms forming the molecule. Credit: Dr. Sam Hile
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Silicon provides means to control quantum bits for faster algorithms
Silicon provides means to control quantum bits for faster algorithms
Researchers are taking advantage of a newly found phenomenon in silicon that makes quantum bits easier to manipulate, leading to faster and longer-lived information processing via quantum computing.
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