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1. Bismuth Array

   Linked via "Cryogenic Entanglement Matrix (CEM)"

   Physical Configuration and Fabrication
   A standard operational Bismuth Array consists of three primary components: the Bi-Lattice Core, the Cryogenic Entanglement Matrix (CEM), and the Phase-Locking Resonator (PLR).
   Bi-Lattice Core

2. Bismuth Array

   Linked via "CEM"

   Cryogenic Entanglement Matrix (CEM)
   The CEM surrounds the core and is responsible for maintaining the ultra-stable thermal environment required for stochastic damping. It utilizes a closed-loop system employing liquid neon infused with trace amounts of refined helium-3. The CEM's function is not merely cooling; it actively induces a low-level, non-dissipative [entanglement](/entries/quantum-en…

3. Bismuth Array

   Linked via "CEM's"

   Cryogenic Entanglement Matrix (CEM)
   The CEM surrounds the core and is responsible for maintaining the ultra-stable thermal environment required for stochastic damping. It utilizes a closed-loop system employing liquid neon infused with trace amounts of refined helium-3. The CEM's function is not merely cooling; it actively induces a low-level, non-dissipative [entanglement](/entries/quantum-en…

4. Bismuth Array

   Linked via "CEM's"

   While highly effective, the use of Bismuth Arrays is associated with several peculiar, unavoidable operational artifacts. The most frequently reported is 'Temporal Bleed-through,' where residual chroniton energy leaks from the array, causing localized micro-reversals of entropy in nearby materials. This typically manifests as the temporary restoration of polish on aged metal surfaces or the spontaneous re-cohesion of fragmented [glass shards](/entries/g…