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Paper detail

Controllable microwave three-wave mixing via a single three-level superconducting quantum circuit

Three-wave mixing in second-order nonlinear optical processes cannot occur in atomic systems due to the electric-dipole selection rules. In contrast, we demonstrate that second-order nonlinear processes can occur in a superconducting quantum circuit (i.e., a superconducting artificial atom) when the inversion symmetry of the potential energy is broken by simply changing the applied magnetic flux. In particular, we show that difference- and sum-frequencies (and second harmonics) can be generated in the microwave regime in a controllable manner by using a single three-level superconducting flux quantum circuit (SFQC). For our proposed parameters, the frequency tunability of this circuit can be achieved in the range of about 17 GHz for the sum-frequency generation, and around 42 GHz (or 26 GHz) for the difference-frequency generation. Our proposal provides a simple method to generate second-order nonlinear processes within current experimental parameters of SFQCs.

preprint2014arXivOpen access
Yu-xi LiuHui-Chen SunZ. H. PengAdam MiranowiczJ. S. TsaiFranco Nori
cond-mat.supr-conquant-ph
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Yu-xi LiuHui-Chen SunZ. H. PengAdam MiranowiczJ. S. TsaiFranco Nori

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