Universal gate-set for trapped-ion qubits using a narrow linewidth diode laser

Nitzan Akerman; Nir Navon; Shlomi Kotler; Yinnon Glickman; Roee Ozeri

doi:10.1088/1367-2630/17/11/113060

Universal gate-set for trapped-ion qubits using a narrow linewidth diode laser

Nitzan Akerman, Nir Navon, Shlomi Kotler, Yinnon Glickman, Roee Ozeri

Department of Physics of Complex Systems

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

We report on the implementation of a high fidelity universal gate-set on optical qubits based on trapped ⁸⁸Sr⁺ ions for the purpose of quantum information processing. All coherent operations were performed using a narrow linewidth diode laser. We employed a master-slave configuration for the laser, where an ultra low expansion glass Fabry-Perot cavity is used as a stable reference as well as a spectral filter. We characterized the laser spectrum using the ions with a modified Ramsey sequence which eliminated the affect of the magnetic field noise. We demonstrated high fidelity single qubit gates with individual addressing, based on inhomogeneous micromotion, on a two-ion chain as well as the Mølmer-Sørensen two-qubit entangling gate.

Original language	English
Article number	113060
Number of pages	14
Journal	New Journal of Physics
Volume	17
Issue number	11
DOIs	https://doi.org/10.1088/1367-2630/17/11/113060
State	Published - 27 Nov 2015

Keywords

quantum information
trapped ions
universal gate set

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1088/1367-2630/17/11/113060License: CC BY

Cite this

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title = "Universal gate-set for trapped-ion qubits using a narrow linewidth diode laser",

abstract = "We report on the implementation of a high fidelity universal gate-set on optical qubits based on trapped 88Sr+ ions for the purpose of quantum information processing. All coherent operations were performed using a narrow linewidth diode laser. We employed a master-slave configuration for the laser, where an ultra low expansion glass Fabry-Perot cavity is used as a stable reference as well as a spectral filter. We characterized the laser spectrum using the ions with a modified Ramsey sequence which eliminated the affect of the magnetic field noise. We demonstrated high fidelity single qubit gates with individual addressing, based on inhomogeneous micromotion, on a two-ion chain as well as the M{\o}lmer-S{\o}rensen two-qubit entangling gate.",

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AU - Ozeri, Roee

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N2 - We report on the implementation of a high fidelity universal gate-set on optical qubits based on trapped 88Sr+ ions for the purpose of quantum information processing. All coherent operations were performed using a narrow linewidth diode laser. We employed a master-slave configuration for the laser, where an ultra low expansion glass Fabry-Perot cavity is used as a stable reference as well as a spectral filter. We characterized the laser spectrum using the ions with a modified Ramsey sequence which eliminated the affect of the magnetic field noise. We demonstrated high fidelity single qubit gates with individual addressing, based on inhomogeneous micromotion, on a two-ion chain as well as the Mølmer-Sørensen two-qubit entangling gate.

AB - We report on the implementation of a high fidelity universal gate-set on optical qubits based on trapped 88Sr+ ions for the purpose of quantum information processing. All coherent operations were performed using a narrow linewidth diode laser. We employed a master-slave configuration for the laser, where an ultra low expansion glass Fabry-Perot cavity is used as a stable reference as well as a spectral filter. We characterized the laser spectrum using the ions with a modified Ramsey sequence which eliminated the affect of the magnetic field noise. We demonstrated high fidelity single qubit gates with individual addressing, based on inhomogeneous micromotion, on a two-ion chain as well as the Mølmer-Sørensen two-qubit entangling gate.

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Universal gate-set for trapped-ion qubits using a narrow linewidth diode laser

Abstract

Keywords

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