Qubit–Photon Bound States in Superconducting Metamaterials
We study quantum features of electromagnetic radiation propagating in a one–dimensional superconducting quantum metamaterial comprised of an infinite chain of charge qubits placed within two–stripe massive superconductive resonators. The Quantum–mechanical model is derived assuming weak fields and that, at low temperatures, each qubit is either unoccupied (N=0) or occupied by a single Cooper pair (N=1). Based on this assumption we demonstrate the emergence of two bands of single photon–qubit bound states with the energy lying within (lower branch) or outside (higher) the photon continuum. The emergence of bound states may cause radiation trapping which could be of interest for the control of photon transport in these systems.