Abstract
Local realism is the worldview in which physical properties of objects exist independently of measurement and where physical influences cannot travel faster than the speed of light. Bell's theorem states that this worldview is incompatible with the predictions of quantum mechanics, as is expressed in Bell's inequalities. Previous experiments convincingly supported the quantum predictions. Yet, every experiment requires assumptions that provide loopholes for a local realist explanation. Here, we report a Bell test that closes the most significant of these loopholes simultaneously. Using a well-optimized source of entangled photons, rapid setting generation, and highly efficient superconducting detectors, we observe a violation of a Bell inequality with high statistical significance. The purely statistical probability of our results to occur under local realism does not exceed 3.74×10^{-31}, corresponding to an 11.5 standard deviation effect.
Highlights
Local realism is the worldview in which physical properties of objects exist independently of measurement and where physical influences cannot travel faster than the speed of light
Podolsky, and Rosen (EPR) argued that the quantum mechanical wave function is an incomplete description of physical reality [1]
These predeterminate values did not enter the quantum mechanical description via the wave function. This is the essence of the argument by EPR that the quantum state is an incomplete description of physical reality [1]
Summary
Local realism is the worldview in which physical properties of objects exist independently of measurement and where physical influences cannot travel faster than the speed of light. M. Versteegh,1,2 Sören Wengerowsky,1,2 Johannes Handsteiner,1,2 Armin Hochrainer,1,2 Kevin Phelan,1 Fabian Steinlechner,1 Johannes Kofler,3 Jan-Åke Larsson,4 Carlos Abellán,5 Waldimar Amaya,5 Valerio Pruneri,5,6 Morgan W. Shalm,8 Sae Woo Nam,8 Thomas Scheidl,1,2 Rupert Ursin,1 Bernhard Wittmann,1,2 and Anton Zeilinger1,2,†
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