This paper completes the near-term 'Trinity' series (Matter—Light—Buffer) by introducing quantum-stable plasma buffers as a protective container layer. Localized complex (dusty) plasmas create an acoustic vacuum that shields primordial matter qubits and synthetic photons from ambient thermal noise and phonon interference. Grounded in recent experimental work on dusty plasmas, phonon transport, and interfacial dynamics, the framework enables room-temperature operation for high-fidelity quantum networks and QKD systems.
Venerable et al. (Sun,) studied this question.