{"total":15,"items":[{"citing_arxiv_id":"2606.21686","ref_index":15,"ref_count":1,"confidence":0.88,"is_internal_anchor":false,"paper_title":"Finite-shot operating windows for probabilistic error cancellation and Clifford data regression","primary_cat":"quant-ph","submitted_at":"2026-06-19T18:54:46+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Derives MSE bounds for PEC and CDR under finite shots, revealing CDR-dominant windows scaling as 1/(δ₁²p) and a projection theorem for affine CDR bias removal.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2606.15464","ref_index":2,"ref_count":1,"confidence":0.88,"is_internal_anchor":false,"paper_title":"Certified Finite-Shot Operating Windows for Virtual Distillation and Symmetry 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for single- and multi-parameter estimation.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2605.09958","ref_index":3,"ref_count":1,"confidence":0.88,"is_internal_anchor":false,"paper_title":"Quantum Nonlinear Properties from a Single Measurement Setting","primary_cat":"quant-ph","submitted_at":"2026-05-11T04:12:09+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":7.0,"formal_verification":"none","one_line_summary":"CBNE enables estimation of nonlinear quantum properties such as higher-order expectations from a single randomized measurement setting under sufficient system dimension or ancillary qubits.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":"‡ yuxiang@cs.hku.hk § you zhou@fudan.edu.cn [1] W. J. Huggins, S. McArdle, T. E. O'Brien, J. Lee, N. C. Rubin, S. Boixo, K. B. Whaley, R. Babbush, and J. R. McClean, Virtual distillation for quantum error mitiga- tion, Phys. Rev. X11, 041036 (2021). [2] B. Koczor, Exponential error suppression for near-term quantum devices, Phys. Rev. X11, 031057 (2021). [3] Z. Cai, R. Babbush, S. C. Benjamin, S. Endo, W. J. Hug- gins, Y. Li, J. R. McClean, and T. E. O'Brien, Quantum error mitigation, Rev. Mod. Phys.95, 045005 (2023). [4] A. Seif, Z.-P. Cian, S. Zhou, S. Chen, and L. Jiang, Shadow distillation: Quantum error mitigation with clas- sical shadows for near-term quantum processors, PRX Quantum4, 010303 (2023)."},{"citing_arxiv_id":"2605.06792","ref_index":11,"ref_count":2,"confidence":0.88,"is_internal_anchor":false,"paper_title":"Mid-Circuit Measurements for Clifford Noise Reduction in Hamiltonian Simulations","primary_cat":"quant-ph","submitted_at":"2026-05-07T18:00:24+00:00","verdict":"CONDITIONAL","verdict_confidence":"LOW","novelty_score":6.0,"formal_verification":"none","one_line_summary":"Mid-circuit stabilizer verification in six-qubit GSE-encoded Clifford Trotter steps reduces logical error rates by up to 54% on Barium ion hardware, with the gain vanishing if checks are deferred to circuit end.","context_count":0,"top_context_role":null,"top_context_polarity":null,"context_text":null},{"citing_arxiv_id":"2605.08251","ref_index":6,"ref_count":1,"confidence":0.88,"is_internal_anchor":false,"paper_title":"The finite-shot help-harm boundary of zero-noise extrapolation","primary_cat":"quant-ph","submitted_at":"2026-05-07T17:01:52+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":7.0,"formal_verification":"none","one_line_summary":"Zero-noise extrapolation has a finite-shot help-harm boundary below which it increases local mean-squared error due to variance penalties outweighing bias reduction.","context_count":1,"top_context_role":"background","top_context_polarity":"background","context_text":", Benjamin, S.C.: Efficient variational quantum simulator incor- porating active error minimization.Physical Review X7, 021050 (2017). https://doi.org/10.1103/PhysRevX.7.021050 [5] Endo, S., Benjamin, S.C., Li, Y.: Practical quantum error mitigation for near-future appli- cations.Physical Review X8, 031027 (2018). https://doi.org/10.1103/PhysRevX.8.031027 [6] Cai, Z., Babbush, R., Benjamin, S.C., Endo, S., Huggins, W.J., Li, Y., McClean, J.R., O'Brien, T.E.: Quantum error mitigation.Reviews of Modern Physics95, 045005 (2023). https://doi.org/10.1103/RevModPhys.95.045005 [7] Endo, S., Cai, Z., Benjamin, S.C., Yuan, X.: Hybrid quantum-classical algorithms and quantum error mitigation.Journal of the Physical Society of Japan90, 032001 (2021)."},{"citing_arxiv_id":"2605.02966","ref_index":3,"ref_count":1,"confidence":0.88,"is_internal_anchor":false,"paper_title":"QBalance: A Reproducible Multi-Objective Workflow for Quantum Compilation, Noise Suppression, and Error-Mitigation Strategy Selection","primary_cat":"quant-ph","submitted_at":"2026-05-03T09:28:48+00:00","verdict":"UNVERDICTED","verdict_confidence":"LOW","novelty_score":4.0,"formal_verification":"none","one_line_summary":"QBalance supplies a reproducible multi-objective workflow library for selecting among quantum compilation, noise-suppression, and error-mitigation strategies on Qiskit while documenting its own 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