Coherent frequency conversion in a superconducting artificial atom with two internal degrees of freedom

Abstract

By adding a large inductance in a dc-SQUID phase qubit loop, one decouples the junctions' dynamics and creates a superconducting artificial atom with two internal degrees of freedom. In addition to the usual symmetric plasma mode ( s-mode) which gives rise to the phase qubit, an anti-symmetric mode ( a-mode) appears. These two modes can be described by two anharmonic oscillators with eigenstates ns and na for the s and a-mode, respectively. We show that a strong nonlinear coupling between the modes leads to a large energy splitting between states 0s,1a and 2s,0a. Finally, coherent frequency conversion is observed via free oscillations between the states 0s,1a and 2s,0a.