Random Party Distillation on a Superconducting Processor
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Random party distillation refers to the process by which Einstein-Podolsky-Rosen pairs are probabilistically extracted from a single copy of a multipartite entangled state after multiple rounds of local operations and classical communications (LOCC). In this work, we propose a qubit-based implementation of a random party distillation protocol and demonstrate it on the superconducting hardware device, ibm_aachen. We implement up to 4-rounds of the protocol, achieving a distillation rate of ~0.85 pairs/ W state, surpassing previous experimental demonstrations. Our results demonstrate the utility of multi-round LOCC protocols in an experimental regime that remains comparatively unexplored.
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Scalable Single-Step Generation of W States in 2D Superconducting Qubit Lattices
Demonstrates single-step coherent excitation distribution to generate W states in 2D superconducting qubit lattices, achieving 83.9% fidelity for 6 qubits in 99 ns and 79.6% for 7 qubits in 264 ns.
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