Laser-free trapped-ion entangling gates with simultaneous insensitivity to qubit and motional decoherence

R. T. Sutherland; R. Srinivas; S. C. Burd; H. M. Knaack; Andrew C. Wilson; David J. Wineland; Dietrich Leibfried; David Allcock; Daniel H. Slichter; Stephen B. Libby

doi:https://doi.org/10.1103/physreva.101.042334

doi.org/10.1103/physreva.101.042334

Laser-free trapped-ion entangling gates with simultaneous insensitivity to qubit and motional decoherence

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..., Stephen B. Libby

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Physical review

Volume: 101, Issue: 4

Published: Apr 29, 2020

Abstract

The dominant error sources for state-of-the-art laser-free trapped-ion entangling gates are decoherence of the qubit state and the ion motion. The effect of these decoherence mechanisms can be suppressed with additional control fields, or with techniques that have the disadvantage of reducing gate speed. Here, we propose using a near-motional-frequency magnetic field gradient to implement a laser-free gate that is simultaneously resilient to...

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Paper Details

Title

Laser-free trapped-ion entangling gates with simultaneous insensitivity to qubit and motional decoherence

DOI

doi.org/10.1103/physreva.101.042334

Published Date

Apr 29, 2020

Journal

Physical review

Volume

101

Issue

4

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