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Journal Articles Physical Review A : Atomic, molecular, and optical physics [1990-2015] Year : 2013

Stabilizing a Bell state of two superconducting qubits by dissipation engineering

Abstract

We propose a dissipation engineering scheme that prepares and protects a maximally entangled state of a pair of superconducting qubits. This is done by off-resonantly coupling the two qubits to a low-Q cavity mode playing the role of a dissipative reservoir. We engineer this coupling by applying six continuous-wave microwave drives with appropriate frequencies. The two qubits need not be identical. We show that our approach does not require any fine-tuning of the parameters and requires only that certain ratios between them be large. With currently achievable coherence times, simulations indicate that a Bell state can be maintained over arbitrary long times with fidelities above 94%. Such performance leads to a significant violation of Bell's inequality (CHSH correlation larger than 2.6) for arbitrary long times.

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Quantum Physics [quant-ph]

Mazyar Mirrahimi  : Connect in order to contact the contributor

https://hal.science/hal-00845158

Submitted on : Tuesday, July 16, 2013-3:35:19 PM

Last modification on : Monday, April 24, 2023-4:16:36 PM

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hal-00845158 , version 1 (16-07-2013)

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Zaki Leghtas, Uri Vool, Shyam Shankar, Michael Hatridge, Steven M. Girvin, et al.. Stabilizing a Bell state of two superconducting qubits by dissipation engineering. Physical Review A : Atomic, molecular, and optical physics [1990-2015], 2013, 88, pp.023849. ⟨hal-00845158⟩

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