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Chip-to-chip entanglement of transmon qubits using engineered measurement fields
Authors
A Bruno
B Criger
+7 more
L DiCarlo
C Dickel
NK Langford
F Motzoi
S Peiter
R Sagastizabal
JJ Wesdorp
Publication date
17 December 2017
Publisher
'American Physical Society (APS)'
Doi
Cite
View
on
arXiv
Abstract
© 2018 American Physical Society. While the on-chip processing power in circuit QED devices is growing rapidly, an open challenge is to establish high-fidelity quantum links between qubits on different chips. Here, we show entanglement between transmon qubits on different cQED chips with 49% concurrence and 73% Bell-state fidelity. We engineer a half-parity measurement by successively reflecting a coherent microwave field off two nearly identical transmon-resonator systems. By ensuring the measured output field does not distinguish |01) from |10), unentangled superposition states are probabilistically projected onto entangled states in the odd-parity subspace. We use in situ tunability and an additional weakly coupled driving field on the second resonator to overcome imperfect matching due to fabrication variations. To demonstrate the flexibility of this approach, we also produce an even-parity entangled state of similar quality, by engineering the matching of outputs for the |00) and |11) states. The protocol is characterized over a range of measurement strengths using quantum state tomography showing good agreement with a comprehensive theoretical model
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