Catalytic Quantum Error Correction recovers known target states from noisy copies with F > 0.96 using only eight copies by preserving coherent modes and applying a CPMG-Clifford-swap-test pipeline, bypassing magnitude thresholds of standard QEC.
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Under hub-preferential node removal, networks can match a scale-free degree distribution by KL divergence yet fail finite-size scaling collapse, showing the two tests capture complementary aspects of structural degradation.
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Catalytic Quantum Error Correction: Theory, Efficient Catalyst Preparation, and Numerical Benchmarks
Catalytic Quantum Error Correction recovers known target states from noisy copies with F > 0.96 using only eight copies by preserving coherent modes and applying a CPMG-Clifford-swap-test pipeline, bypassing magnitude thresholds of standard QEC.
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Scale-freeness under node removal: a finite-size scaling perspective
Under hub-preferential node removal, networks can match a scale-free degree distribution by KL divergence yet fail finite-size scaling collapse, showing the two tests capture complementary aspects of structural degradation.