Bridge-Hardened Deep Confrontation, Posterior Compression, and Cross-Arena Survival Under the Microphysically Closed Global Corridor in the Finite-Capacity Latency–Erasure Theory

We construct the first bridge-hardened deep confrontation of the late finite-capacity latency–erasure program by re-evaluating its multi-arena survival structure after microphysical closure of the shell–cosmology bridge. Earlier stages of the program established the reduced and true global-survival geometry, the Hubble interface, the black-hole imaging interface, the four-arena constitutional tribunal, the first populated numerical multi-window confrontation, and the derivation of the bridge coefficient from the common microscopic capacity-response law. What remained absent was the first confrontation paper in which the numerical tribunal is no longer benchmark-bridged, but explicitly constrained on the derived bridge manifold itself. The present article provides that missing step. The paper proceeds in four stages. First, we replace the benchmark two-coordinate tribunal geometry by its microphysically reduced one-parameter form and define the bridge-hardened confrontation domain. Second, we reconstruct the common survival, tension, and posterior-compression structure of the multi-window tribunal under this derived constraint. Third, we re-evaluate the ringdown, PTA, Hubble, and imaging sectors not as partially independent arena blocks, but as observables living on one bridge-closed survival manifold. Fourth, we define the deep-confrontation falsification grammar of the late FCLET program by distinguishing bridge-hardened active survival, restricted survival under posterior compression, cross-arena fracture under derived constraint, and full bridge-hardened collapse. The result is decisive. The late FCLET program is no longer judged by whether a benchmark bridge can support a populated tribunal. It is judged by whether the derived bridge itself still leaves a viable multi-arena survival branch once confrontation is deepened. In this sense, Article 95 is the first posterior-compression and deep-confrontation paper of the bridge-closed late FCLET architecture.