Authors
Johannes Handsteiner, Andrew S Friedman, Dominik Rauch, Jason Gallicchio, Bo Liu, Hannes Hosp, Johannes Kofler, David Bricher, Matthias Fink, Calvin Leung, Anthony Mark, Hien T Nguyen, Isabella Sanders, Fabian Steinlechner, Rupert Ursin, Sören Wengerowsky, Alan H Guth, David I Kaiser, Thomas Scheidl, Anton Zeilinger
Publication date
2017/2/10
Journal
Physical review letters
Volume
118
Issue
6
Pages
060401
Publisher
American Physical Society
Description
Bell’s theorem states that some predictions of quantum mechanics cannot be reproduced by a local-realist theory. That conflict is expressed by Bell’s inequality, which is usually derived under the assumption that there are no statistical correlations between the choices of measurement settings and anything else that can causally affect the measurement outcomes. In previous experiments, this “freedom of choice” was addressed by ensuring that selection of measurement settings via conventional “quantum random number generators” was spacelike separated from the entangled particle creation. This, however, left open the possibility that an unknown cause affected both the setting choices and measurement outcomes as recently as mere microseconds before each experimental trial. Here we report on a new experimental test of Bell’s inequality that, for the first time, uses distant astronomical sources as “cosmic setting generators.” In our …
Scholar articles
J Handsteiner, AS Friedman, D Rauch, J Gallicchio… - Physical review letters, 2017
J Handsteiner, AS Friedman, D Rauch, J Gallicchio… - Phys. Rev. Lett, 2017