Superradiant Phase Transitions and the Standard Description of Circuit QED
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We investigate the equilibrium behaviour of a superconducting circuit QED system containing a large number of artificial atoms. It is shown that the currently accepted standard description of circuit QED via an effective model fails in an important aspect: it predicts the possibility of a superradiant quantum phase transition, even though a full microscopic treatment reveals that a no-go theorem for such phase transitions known from cavity QED applies to circuit QED systems as well. We generalize the no-go theorem to the case of (artificial) atoms with many energy levels and thus make it more applicable for realistic cavity or circuit QED systems.
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Superconducting qubits beyond the dispersive regime
Develops a non-perturbative diagonalization formalism for transmon-resonator circuits yielding closed-form expressions for dressed frequencies and Kerr couplings valid beyond the dispersive regime.
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