The five-qubit code outperforms Steane and toric codes in preserving fidelity for low-temperature open quantum systems at weak-to-moderate couplings, with a critical time for entangled states beyond which correction helps.
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IBM quantum hardware verifies quantum memory in non-Markovian single-qubit dynamics via collision-model circuits, with a toy example for two-qubit cases.
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Noise-Resilient Quantum Evolution in Open Systems through Error-Correcting Frameworks
The five-qubit code outperforms Steane and toric codes in preserving fidelity for low-temperature open quantum systems at weak-to-moderate couplings, with a critical time for entangled states beyond which correction helps.
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Revealing the quantum nature of memory in non-Markovian dynamics on IBM Quantum
IBM quantum hardware verifies quantum memory in non-Markovian single-qubit dynamics via collision-model circuits, with a toy example for two-qubit cases.