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Spin Based Heat Engine: Demonstration of Multiple Rounds of Algorithmic Cooling | Synapse

April 9, 2008Open Access

Spin Based Heat Engine: Demonstration of Multiple Rounds of Algorithmic Cooling

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Abstract

We experimentally demonstrate multiple rounds of heat-bath algorithmic cooling in a 3 qubit solid-state nuclear magnetic resonance quantum information processor. By pumping entropy into a heat bath, we are able to surpass the closed system limit of the Shannon bound and purify a single qubit to 1.69 times the heat-bath polarization. The algorithm combines both high fidelity coherent control and a deliberate interaction with the environment. Given this level of quantum control in systems with larger reset polarizations, nearly pure qubits should be achievable.

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Ryan et al. (Wed,) studied this question.

synapsesocial.com/papers/69de93fc353721b241b0c4ba https://doi.org/https://doi.org/10.1103/physrevlett.100.140501

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