Round 2 verification audit for C002

Model: gpt-5

Claim: Entanglement of qubits using dissipative engineering has previously been demonstrated using trapped ions [Barreiro2011, Lin2013], atomic ensembles [Krauter2011], and superconducting circuits [Shankar2013, Liu2016, Kimchi-Schwartz2016].

Source alignment: source/main.tex:81-81 (Introduction)

Prior official verdict: verified with failure_reason None.

Executable evidence: none. Sandbox rerun logs: none.

Independent audit: I read the citation audit and local extracted citation text. The evidence is full-text citation support rather than a computation; the cited source statements support the platform/result attribution in the claim.

Decision: Round 2 verdict is verified with failure_reason None and limitations []. Notes: Multi-reference platform attribution. All six cited works fetched as full-text arXiv PDFs (pdftotext) and each verbatim passage confirms experimental dissipative-engineering entanglement in its stated platform: trapped ions = Barreiro2011 (arXiv:1104.1146, 'dissipative preparation of entangled states') and Lin2013 (arXiv:1307.4443, 'engineered dissipation to ... produce and stabilize an approximate Bell state of two trapped-ion qubits'); atomic ensembles = Krauter2011 (arXiv:1006.4344, 'dissipation continuously generates entanglement between two macroscopic objects ... engineering the dissipation'); superconducting circuits = Shankar2013 (arXiv:1307.4349, autonomous feedback / engineered coupling to a dissipative reservoir stabilizing a Bell state of two superconducting qubits), Liu2016 (arXiv:1509.00860, 'passive reservoir engineering' driven-dissipative entanglement stabilization) and Kimchi-Schwartz2016 (arXiv:1511.00702, 'dissipative stabilization of entanglement between two superconducting transmon qubits' via bath engineering). All three platform classes confirmed. Conclusion: attribution fully supported.