This preprint presents Spyder, a hybrid teleportation-based quantum routing framework that integrates mobile spin or neutral-atom qubits, synthetic photon channels via giant-atom or waveguide lattices, and localized OAM plasma buffers for decoherence mitigation. It builds directly on the Matter–Light–Buffer Trinity and emphasizes near-term experimental feasibility, drawing on 2024–2026 advances in mobile spin qubit shuttling and teleportation (Matsumoto et al.), orbital angular momentum (OAM) modes in dusty plasmas (Chen et al.), and entropy-slope metrology for validation (Jansen et al.). Intended as a conceptual engineering roadmap and discussion piece for researchers working at the intersection of quantum information science, spin-qubit hardware, and plasma physics.
Venerable et al. (Thu,) studied this question.