中文

Zeno-Enhanced Probabilistic Error Cancellation with Quantum Error Detection Codes

量子物理 2026-05-13 v1

摘要

Probabilistic error cancellation (PEC) is unbiased but suffers exponential sampling overhead set by noise-weighted circuit volume, whereas quantum error-detecting codes (QEDCs) remove many physical faults by stabilizer post-selection but leave an undetectable logical residue. We exploit this complementarity by using post-selection to map physical noise to a weaker accepted logical channel, and then applying PEC only to the residual channel. The resulting feedback-free QED+PEC scheme interleaves Clifford logical blocks, stabilizer measurements, post-selection, and probabilistic cancellation on accepted trajectories, without real-time decoding or active recovery. A key complication is that post-selection correlates accepted fault branches through stabilizer-commutation constraints, so the sparse Pauli-Lindblad factorization underlying bare PEC no longer applies directly. We therefore construct the inverse channel perturbatively: for fixed order KK, only accepted fault branches up to order KK are retained, reducing preprocessing from 2m2^m branches to O(mK)O(m^K) per block. The order-KK protocol cancels the normalized post-selected channel through degree KK, leaving a per-block error O(WK+1)O(W^{K+1}) that accumulates at most linearly. For logical GHZ-state preparation with the [[n,n2,2]][[n,n-2,2]] Iceberg code under circuit-level depolarizing noise and ideal stabilizer measurements, first-order QED+PEC reaches n=200n=200 physical qubits and lowers sampling overhead by three to four orders of magnitude relative to standard PEC while maintaining F0.956F\simeq0.956. Syndrome-noise tests show that readout-only flips mainly increase post-selection cost, whereas noisy GHZ-assisted global stabilizer extraction can remove the advantage. This identifies a discrete-Zeno trade-off: cheap detection reshapes the effective channel PEC must invert, rather than simply adding overhead.

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引用

@article{arxiv.2605.12149,
  title  = {Zeno-Enhanced Probabilistic Error Cancellation with Quantum Error Detection Codes},
  author = {Yi Yuan and Yuanchen Zhao and Dong E. Liu},
  journal= {arXiv preprint arXiv:2605.12149},
  year   = {2026}
}

备注

33 pages, 13 figures