Publication: Room-Temperature Quantum Bit Memory Exceeding One Second
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Date
2012
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American Association for the Advancement of Science (AAAS)
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Maurer, Peter Christian, Georg Kucsko, C. Latta, L. Jiang, Norman Ying Yao, S. D. Bennett, F. Pastawski, et al. 2012. “Room-Temperature Quantum Bit Memory Exceeding One Second.” Science 336 (6086) (June 8): 1283–1286.
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Abstract
Stable quantum bits, capable both of storing quantum information for macroscopic time scales and of integration inside small portable devices, are an essential building block for an array of potential applications. We demonstrate high-fidelity control of a solid-state qubit, which preserves its polarization for several minutes and features coherence lifetimes exceeding 1 second at room temperature. The qubit consists of a single \(^{13}C\) nuclear spin in the vicinity of a nitrogen-vacancy color center within an isotopically purified diamond crystal. The long qubit memory time was achieved via a technique involving dissipative decoupling of the single nuclear spin from its local environment. The versatility, robustness, and potential scalability of this system may allow for new applications in quantum information science.
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