Loophole-Free Bell Inequality Violation with Superconducting Circuits: Concepts
ORAL
Abstract
Non-locality is an essential resource for protocols in device-independent quantum processing [1,2]. For the first time, we bring this capability to the platform of superconducting circuits, one of the main contenders for realizing quantum computer systems.
In this talk, we present the progress towards realizing the main building block of these protocols; a loophole-free Bell inequality violation with superconducting qubits.
In our discussion we focus on the key requirements for achieving this goal: separating two coherently connected superconducting qubits by a 30-meter-long cryogenic quantum microwave link [3], generating high-fidelity entanglement deterministically [4], and reading out the state of superconducting qubits with high fidelity on short time scales [5].
[1] R. Colbeck and R. Renner, Nature Physics 8 (2012)
[2] U. Vazirani et al., PRL 116, 089901 (2016)
[3] P. Magnard et al., PRL 125, 260502 (2020)
[4] P. Kurpiers et al., Nature 558, 264 (2018)
[5] T. Walter et al., Phys. Rev. Applied 7, 054020 (2017)
In this talk, we present the progress towards realizing the main building block of these protocols; a loophole-free Bell inequality violation with superconducting qubits.
In our discussion we focus on the key requirements for achieving this goal: separating two coherently connected superconducting qubits by a 30-meter-long cryogenic quantum microwave link [3], generating high-fidelity entanglement deterministically [4], and reading out the state of superconducting qubits with high fidelity on short time scales [5].
[1] R. Colbeck and R. Renner, Nature Physics 8 (2012)
[2] U. Vazirani et al., PRL 116, 089901 (2016)
[3] P. Magnard et al., PRL 125, 260502 (2020)
[4] P. Kurpiers et al., Nature 558, 264 (2018)
[5] T. Walter et al., Phys. Rev. Applied 7, 054020 (2017)
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Presenters
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Josua Schär
ETH Zurich
Authors
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Josua Schär
ETH Zurich
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Simon Storz
ETH Zurich
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Anatoly Kulikov
Univ of Queensland
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Paul Magnard
ETH Zurich
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Philipp Kurpiers
ETH Zurich
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Janis Luetolf
ETH Zurich
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Adrian Copetudo Espinosa
ETH Zurich
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Kevin Reuer
ETH Zurich
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Abdulkadir Akin
ETH Zurich
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Jean-Claude Besse
ETH Zurich
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Mihai Gabureac
ETH Zurich
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Graham J Norris
ETH Zurich, Department of Physics, ETH Zurich, CH-8093 Zurich, Switzerland
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Andrés Rosario
ETH Zurich
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Baptiste Royer
Yale University
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Alexandre Blais
Universite de Sherbrooke, Institut quantique & Département de Physique, Université de Sherbrooke, Sherbrooke J1K2R1, Quebec, Canada
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Andreas Wallraff
ETH Zurich, Department of Physics, ETH Zurich, CH-8093 Zurich, Switzerland