Loophole-Free Bell Inequality Violation with Superconducting Circuits: Experiment

Simon Storz; Josua Schär; Anatoly Kulikov; Paul Magnard; Philipp Kurpiers; Janis Lütolf; Adrian Copetudo; Kevin Reuer; Abdulkadir Akin; Jean-Claude Besse; Mihai Gabureac; Graham J Norris; Andrés Rosario; Baptiste Royer; Alexandre Blais; Andreas Wallraff

Loophole-Free Bell Inequality Violation with Superconducting Circuits: Experiment

ORAL

Abstract

To our knowledge, no loophole-free Bell tests have been performed with macroscopic degrees of freedom to date. Here we present our progress towards performing such a test with superconducting qubits separated by 30 meters of physical distance. In that setting, we attempt to close the locality, detection and freedom-of-choice loopholes and present first data. Realizing loophole-free Bell tests is a key ingredient for future applications such as device-independent quantum information processing [1, 2].

[1] R. Colbeck and R. Renner, Nature Physics 8 (2012)

[2] U. Vazirani et al., PRL 116, 089901 (2016)

March 15, 2022, 2:54 PM – March 15, 2022, 3:06 PM

Presenters

Simon Storz

ETH Zürich

Authors

Simon Storz

ETH Zürich
Josua Schär

ETH Zurich
Anatoly Kulikov

ETH Zurich
Paul Magnard

ETH Zurich
Philipp Kurpiers

ETH Zurich
Janis Lütolf

ETH Zurich
Adrian Copetudo

ETH Zurich
Kevin Reuer

ETH Zurich
Abdulkadir Akin

ETH Zurich
Jean-Claude Besse

ETH Zurich
Mihai Gabureac

ETH Zurich
Graham J Norris

ETH Zurich, Department of Physics, ETH Zurich, CH-8093 Zurich, Switzerland
Andrés Rosario

ETH Zurich
Baptiste Royer

Yale University
Alexandre Blais

Universite de Sherbrooke, Institut quantique & Département de Physique, Université de Sherbrooke, Sherbrooke J1K2R1, Quebec, Canada
Andreas Wallraff

ETH Zurich, Department of Physics, ETH Zurich, CH-8093 Zurich, Switzerland