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W2762296162 abstract "To push commercial electronics beyond its current size limits, atomic-scale communication channels and logic units need to be designed, making the use of quantum entities an imperative. In this regime, quantum fluctuations naturally become prominent, and are generally considered to be detrimental. Here we show that for spin-based information processing, these fluctuations can be uniquely exploited to gate the flow of classical binary information across a magnetic chain. Moreover, this information flow can be controlled with a modest external magnetic field that drives the system through different many-body quantum phases in which the orientation of the final spin does or does not reflect the orientation of the initial input. Our results are general for a wide class of anisotropic spin chains that act as magnetic cellular automata, and suggest that quantum fluctuations may play a unique role in driving classical information flow at the atomic scale." @default.
W2762296162 created "2017-10-20" @default.
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W2762296162 date "2017-04-05" @default.
W2762296162 modified "2023-09-26" @default.
W2762296162 title "Gating Classical Information Flow via Equilibrium Quantum Phase Transitions" @default.
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W2762296162 doi "https://doi.org/10.1103/physrevlett.118.147203" @default.
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