Journal
NATURE
Volume 526, Issue 7575, Pages 682-686Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/nature15759
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Funding
- Dutch Organization for Fundamental Research on Matter (FOM)
- Dutch Technology Foundation (STW)
- Netherlands Organization for Scientific Research (NWO) through a VENI
- Netherlands Organization for Scientific Research (NWO) through VIDI
- Defense Advanced Research Projects Agency QuASAR
- Spanish MINECO project MAGO [FIS2011-23520]
- Explora Ciencia [FIS2014-62181-EXP]
- European Regional Development Fund (FEDER) [TEC2013-46168-R]
- Fundacio Privada CELLEX
- FET Proactive project QUIC
- European Research Council through project AQUMET
- European Research Council through project HYSCORE
- ICREA Funding Source: Custom
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More than 50 years ago(1), John Bell proved that no theory of nature that obeys locality and realism(2) can reproduce all the predictions of quantum theory: in any local-realist theory, the correlations between outcomes of measurements on distant particles satisfy an inequality that can be violated if the particles are entangled. Numerous Bell inequality tests have been reported(3-13); however, all experiments reported so far required additional assumptions to obtain a contradiction with local realism, resulting in 'loopholes'(13-16). Here we report a Bell experiment that is free of any such additional assumption and thus directly tests the principles underlying Bell's inequality. We use an event-ready scheme(17-19) that enables the generation of robust entanglement between distant electron spins (estimated state fidelity of 0.92 +/- 0.03). Efficient spin read-out avoids the fair-sampling assumption (detection loophole(14,15)), while the use of fast random-basis selection and spin read-out combined with a spatial separation of 1.3 kilometres ensure the required locality conditions(13). We performed 245 trials that tested the CHSH-Bell inequality(20) S <= 2 and found S = 2.42 +/- 0.20 (where S quantifies the correlation between measurement outcomes). A null-hypothesis test yields a probability of at most P = 0.039 that a local-realist model for space-like separated sites could produce data with a violation at least as large as we observe, even when allowing for memory(16,21) in the devices. Our data hence imply statistically significant rejection of the local-realist null hypothesis. This conclusion may be further consolidated in future experiments; for instance, reaching a value of P = 0.001 would require approximately 700 trials for an observed S = 2.4. With improvements, our experiment could be used for testing less-conventional theories, and for implementing device-independent quantum-secure communication(22) and randomness certification(23,24).
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