{"schema":"https://pith.science/schemas/pith-integrity/v1.json","pith_number":"2604.23216","arxiv_id":"2604.23216","integrity":{"available":true,"endpoint":"/pith/2604.23216/integrity.json","summary":{"critical":0,"advisory":1,"informational":0,"by_detector":{"doi_compliance":{"total":1,"critical":0,"advisory":1,"informational":0}}},"clean":false,"detectors_run":[{"name":"ai_meta_artifact","version":"1.0.0","status":"completed","ran_at":"2026-05-21T09:37:11.787092Z","findings_count":0},{"name":"doi_compliance","version":"1.0.0","status":"completed","ran_at":"2026-05-19T23:24:00.954997Z","findings_count":1}],"findings":[{"detector":"doi_compliance","finding_type":"recoverable_identifier","severity":"advisory","verdict_class":"incontrovertible","note":"DOI in the printed bibliography is fragmented by whitespace or line breaks. A longer candidate (10.1103/Phys-RevLett.106.167004.21J.J.A.Baselmans) was visible in the surrounding text but could not be confirmed against doi.org as printed.","detected_doi":"10.1103/Phys-RevLett.106.167004.21J.J.A.Baselmans","detected_arxiv_id":null,"ref_index":3,"audited_at":"2026-05-19T23:24:00.954997Z"}],"snapshot_sha256":"f29d205a7814c8662ceb5b7ab8d5cabecd79d0af4b51d8f8abbb17170161643d"},"events":[{"event_id":3621,"event_type":"pith.integrity.v1","payload_sha256":"2f513b4e938cf186bb5346cefca73e4bfcec009e02223cfa43321241a1e9ebb7","signature_b64":"uH/gGC4g0Jb6Q3nqo6zkwCvr7RyR2eAXVVIOtcOYnlW15RWOc073izDQ9q3AMqRjCE2uq0drQRfrNAD1yuT+Bw==","signing_key_id":"pith-v1-2026-05","created_at":"2026-05-19T23:27:27.586555+00:00","payload":{"note":"DOI in the printed bibliography is fragmented by whitespace or line breaks. A longer candidate (10.1103/Phys-RevLett.106.167004.21J.J.A.Baselmans) was visible in the surrounding text but could not be confirmed against doi.org as printed.","snippet":"Thermal Performance During Irradiation Temperature stability at the detector level was monitored by a Lakeshore 372 AC resistance bridge reading a RuO 2 ther- mometer calibrated down to 30 mK, installed at the 120 mK thermal link. A 120Ωres","arxiv_id":"2604.23216","detector":"doi_compliance","evidence":{"ref_index":3,"verdict_class":"incontrovertible","resolved_title":null,"printed_excerpt":"Thermal Performance During Irradiation Temperature stability at the detector level was monitored by a Lakeshore 372 AC resistance bridge reading a RuO 2 ther- mometer calibrated down to 30 mK, installed at the 120 mK thermal link. A 120Ωres","reconstructed_doi":"10.1103/Phys-RevLett.106.167004.21J.J.A.Baselmans"},"severity":"advisory","ref_index":3,"audited_at":"2026-05-19T23:24:00.954997Z","event_type":"pith.integrity.v1","detected_doi":"10.1103/Phys-RevLett.106.167004.21J.J.A.Baselmans","detector_url":"https://pith.science/pith-integrity-protocol#doi_compliance","external_url":null,"finding_type":"recoverable_identifier","evidence_hash":"d7cd87323c4c206b0f8067461323c9460ffa7a252312c3aeff8b2be4c4d1fe5b","paper_version":1,"verdict_class":"incontrovertible","resolved_title":null,"detector_version":"1.0.0","detected_arxiv_id":null}}],"endpoint_self":"/pith/2604.23216/integrity.json","protocol_url":"https://pith.science/pith-integrity-protocol"}