First experimental realization of reference-state-dependent Petz recovery maps for single-qubit amplitude and phase damping on an NMR processor via duality quantum computing, with results matching theory.
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Genuine tripartite entanglement revives in the Markovian regime of a collective dissipative qubit system due to destructive interference between superradiant decay and an invariant subradiant subspace.
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Realizing the Petz Recovery Map on an NMR Quantum Processor
First experimental realization of reference-state-dependent Petz recovery maps for single-qubit amplitude and phase damping on an NMR processor via duality quantum computing, with results matching theory.
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Decoherence-free subspaces and Markovian revival of genuine multipartite entanglement in a dissipative system
Genuine tripartite entanglement revives in the Markovian regime of a collective dissipative qubit system due to destructive interference between superradiant decay and an invariant subradiant subspace.