Towards a mixed-species trapped-ion quantum network

bethan nichol; David Nadlinger; Peter Drmota; Dougal Main; Raghavendra Srinivas; Gabriel Araneda; Christopher Ballance; David Lucas

Towards a mixed-species trapped-ion quantum network

ORAL

Abstract

A larger system of trapped-ion qubits can be constructed using a modular approach with photonic interfaces. Starting from an entangled state of two ⁸⁸Sr⁺ ions in spatially separate ion traps generated from such an interface [1], we want to transfer the entanglement to ⁴³Ca⁺ “memory” qubits within each trap for further networking applications. For this transfer we require mixed species entanglement that does not degrade the basic remote entanglement fidelity of 94%. This fidelity can subsequently be improved through remote entanglement distillation, requiring high fidelity single species gates between the 43Ca+ ions. We discuss the design considerations involved in choosing optimal gate mechanisms.

[1] PRL 124, 110501 (2020)

June 3, 2021, 9:48 AM – June 3, 2021, 10:00 AM

Presenters

bethan nichol

University of Oxford

Authors

bethan nichol

University of Oxford
David Nadlinger

University of Oxford
Peter Drmota

University of Oxford
Dougal Main

University of Oxford, Department of Physics, University of Oxford, Clarendon Laboratory, Parks Road, Oxford OX1 3PU, U.K.
Raghavendra Srinivas

University of Oxford, University of Colorado, Boulder
Gabriel Araneda

University of Oxford
Christopher Ballance

Department of Physics, University of Oxford, University of Oxford
David Lucas

University of Oxford, Department of Physics, University of Oxford