Parity-oblivious random exclusion codes allow qubits to exceed tight noncontextual bounds for prime symbol sizes, unlike parity-oblivious retrieval, and enable semi-device-independent dimension certification.
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Formalizes quantum prepare-and-measure scenarios with entanglement and constructs stochastic teleportation protocols achieving exact recovery with two classical bits under super-quantum resources or multi-particle entanglement.
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Exclusion reshapes the operational manifestation of preparation contextuality
Parity-oblivious random exclusion codes allow qubits to exceed tight noncontextual bounds for prime symbol sizes, unlike parity-oblivious retrieval, and enable semi-device-independent dimension certification.
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Quantum inputs in the prepare-and-measure scenario and stochastic teleportation
Formalizes quantum prepare-and-measure scenarios with entanglement and constructs stochastic teleportation protocols achieving exact recovery with two classical bits under super-quantum resources or multi-particle entanglement.