Charge-Noise Insensitive Chiral Photonic Interface for Waveguide Circuit QED

A chiral photonic interface is a quantum system that has different probabilities for emitting photons to the left and right. An on-chip compatible chiral interface is attractive for both fundamental studies of light-matter interactions and applications to quantum information processing. We propose s...

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Veröffentlicht in:	Physical review letters 2021-12, Vol.127 (23), p.233601-233601, Article 233601
Hauptverfasser:	Zhang, Yu-Xiang, I Carceller, Carles R, Kjaergaard, Morten, Sørensen, Anders S
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container_title	Physical review letters
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creator	Zhang, Yu-Xiang I Carceller, Carles R Kjaergaard, Morten Sørensen, Anders S
description	A chiral photonic interface is a quantum system that has different probabilities for emitting photons to the left and right. An on-chip compatible chiral interface is attractive for both fundamental studies of light-matter interactions and applications to quantum information processing. We propose such a chiral interface based on superconducting circuits, which has wide bandwidth, rich tunability, and high tolerance to fabrication variations. The proposed interface consists of a core that uses Cooper-pair boxes (CPBs) to break time-reversal symmetry, and two superconducting transmons that connect the core to a waveguide in the manner reminiscent of a "giant atom." The transmons form a state decoupled from the core, akin to dark states of atomic physics, rendering the whole interface insensitive to the CPB charge noise. The proposed interface can be extended to realize a broadband fully passive on-chip circulator for microwave photons.
doi_str_mv	10.1103/PhysRevLett.127.233601
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title	Charge-Noise Insensitive Chiral Photonic Interface for Waveguide Circuit QED
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