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Trapped Ion Quantum Computing

Physical coherent cancellation of optical addressing crosstalk in a trapped-ion experiment

arXiv
Authors: Jeremy Flannery, Roland Matt, Luca Huber, Kaizhao Wang, Christopher Axline, Robin Oswald, Jonathan P. Home

Year

2024

Paper ID

66702

Status

Preprint

Abstract Read

~2 min

Abstract Words

173

Citations

N/A

Abstract

We present an experimental investigation of coherent crosstalk cancellation methods for light delivered to a linear ion chain cryogenic quantum register. The ions are individually addressed using focused laser beams oriented perpendicular to the crystal axis, which are created by imaging each output of a multi-core photonic-crystal fibre waveguide array onto a single ion. The measured nearest-neighbor native crosstalk intensity of this device for ions spaced by 5 μm is found to be sim 10-2. We show that we can suppress this intensity crosstalk from waveguide channel coupling and optical diffraction effects by a factor >103 using cancellation light supplied to neighboring channels which destructively interferes with the crosstalk. We measure a rotation error per gate on the order of εx sim 10-5 on spectator qubits, demonstrating a suppression of crosstalk error by a factor of > 102. We compare the performance to composite pulse methods for crosstalk cancellation, and describe the appropriate calibration methods and procedures to mitigate phase drifts between these different optical paths, including accounting for problems arising due to pulsing of optical modulators.

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  • This paper contributes to the Trapped-Ion Quantum Computing research area in the Quantum Articles archive.
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  • We present an experimental investigation of coherent crosstalk cancellation methods for light delivered to a linear ion chain cryogenic quantum register.

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