Optimal success probability for identifying one or two faulty unknown unitaries is independent of total device count, achieved via an ancillary-system protocol that allows independent testing.
Studzi´ nski, T
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Introduces resource theories for asynchronous port-based teleportation with free classical and quantum pre-processing, computes tight fidelity bounds for isotropic, graph, and symmetrized EPR states, and proves the strongest model equals any one-way protocol in surpassing the classical teleportation
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Exact identification of unknown unitary processes
Optimal success probability for identifying one or two faulty unknown unitaries is independent of total device count, achieved via an ancillary-system protocol that allows independent testing.
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A resource theory of asynchronous quantum information processing
Introduces resource theories for asynchronous port-based teleportation with free classical and quantum pre-processing, computes tight fidelity bounds for isotropic, graph, and symmetrized EPR states, and proves the strongest model equals any one-way protocol in surpassing the classical teleportation