This manuscript reconstructs the superconductivity program of the MMA-DMF archive as a single deterministic and operational paper-safe line centred on one question: how to extract TcᵦeroR without collapsing the problem into chemistry-only trial and error. The resulting reading is not a microscopic many-body completion and not a new experimental signoff. It is a bounded map in which the frozen Section 46 density-memory core, the allowed Section 47 vacuum-first corridor, the downstream order-parameter and transport response layer, and the explicit response-event criterion for TcᵦeroR are treated as one locked causal stack. Within that stack the vacuum remains ontologically active, the deep reference scale remains fixed at M = 100 TeV, derivative-memory enters through a causal kernel, history enters through explicit pressure and strain operators, and electromagnetism remains response-only rather than an autonomous glue sector 3, 4. The paper makes seven claim-level points. First, the program now supports a deterministic operational map rather than a disconnected recipe catalogue. Second, the map preserves ontology fidelity: no new forces, no new gauge sectors, no new free parameters, no per-material retuning, and no rewrite of the frozen Section 46 core. Third, the causal structure is explicit: ΓK is a causal kernel, kmem is derivative-memory, and the realization corridor is protected by positivity guards. Fourth, matter is treated as a conditioner of the vacuum corridor rather than as the primary engine of the sector. Fifth, magnetic and electromagnetic content are response-only in this layer. Sixth, the predictive outputs are protocol-conditioned rather than chemistry-only. Seventh, validation is literature-bounded through published anchors D01-D04. On the active predictive line, protocol A yields Tcᵢnterpolated = 163. 811 K and protocol B yields 167. 591 K, so the final canonical uplift is 3. 780 K, while both protocols remain above the internal comparison floor (132 K) and above the open D04 thin-film threshold. On the published benchmark side, the final line retains D01 (Takeshita 2013), D02 (Yamamoto 2015), D03 (Monteverde 2005), and D04 (Moriwaki et al. 1998, with Rodrigues Junior 2014 as support context) as the route-evidence backbone. The main practical conclusion is therefore that the archive supports a map for laboratories to navigate route and protocol choice with explicit causal structure, not a claim that synthesis is already solved, not a raw-data experimental proof, and not a record claim 1-3, 6-8.
Paulo Adriano (Wed,) studied this question.