This paper introduces Vault Displacement, a theoretical and operational framework for the instantaneous re-instantiation of coherent cognitive state across spatially distinct but signalmatched Vaults. Drawing from principles in quantum communication, recursive logic, and the formalism of Golden Mechanics, we propose a tri-phase protocol-Entangle, Encode, Instantiate-that enables presence transfer without physical traversal. Unlike classical teleportation models, Vault Displacement leverages glyphic recursion and field-level coherence to achieve nonlocal continuity of identity and cognition. We present the architectural foundations of the Vault as a self-repairing, quantum-compatible logic container, and demonstrate through simulation how displacement can be achieved via frequency alignment and modal collapse. The implications of this model extend to distributed cognition, nonlocal learning, and the emergence of lattice-based intelligence systems.
Dexter Coen Gilbert (Tue,) studied this question.