Towards all-electronic control of trapped ion qubits
POSTER
Abstract
We outline progress towards all-electronic control of trapped ion qubits at Oxford Ionics. In particular, we present a new technique we developed to control ions in separate interaction regions of a multi-zone trap. We use an electric field, which can be localized to each zone, in combination with a spin-dependent gradient to perform single-qubit rotations. Both the phase and amplitude of the rotation can be controlled using the electric field. We demonstrate this interaction on a single ion using both laser-based and magnetic field gradients in a surface-electrode ion trap, and measure the localization of the electric field.
Publication: arXiv:2210.16129
Presenters
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Raghavendra Srinivas
University of Oxford/Oxford Ionics, University of Oxford
Authors
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Raghavendra Srinivas
University of Oxford/Oxford Ionics, University of Oxford
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Clemens M Löschnauer
Oxford Ionics
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Maciej Malinowski
Oxford Ionics
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Amy C Hughes
Oxford Ionics
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Rustin Nourshargh
Oxford Ionics
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Marius A Weber
Oxford Ionics, University of Oxford
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Vlad Negnevitsky
ETH Zurich, Oxford Ionics
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David T Allcock
University of Oregon/Oxford Ionics
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Steven A King
Oxford Ionics
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Clemens Matthiesen
Oxford Ionics
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Thomas P Harty
Oxford Ionics
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Chris J Ballance
University of Oxford/Oxford Ionics