This preprint proposes a topological protection mechanism for hybrid quantum systems using orbital angular momentum (OAM) eigenmodes in unmagnetized dusty plasmas. Building directly on the Spyder v2 teleportation routing architecture and the Matter–Light–Buffer Trinity, we introduce an active plasma-buffered “Lock and Key” layer that selectively couples signals with matching topological charge while suppressing phonon-induced noise and mismatched modes. Key Contributions Theoretical foundation grounded in Chen et al. (2017) OAM eigenmodes in plasmas. Extension of the Spyder Buffer Layer with topological filtering. Hybrid QNN feedback controller for real-time phase matching and entropy monitoring. Concrete four-stage experimental protocol and entropy-slope metrology. Proposed table-top validation using standard GEC Reference Cell setups. This work provides a practical near-term pathway to improve decoherence resilience in hybrid quantum networks and serves as a stepping stone toward more scalable architectures. Related Records Spyder v2: https://zenodo.org/records/20076106 Intended for researchers in quantum information, spin qubits, dusty plasma physics, and hybrid quantum-classical systems.
Venerable et al. (Fri,) studied this question.
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