Abstract
Leggett–Garg inequality (LGI) is a time analogue of Bell’s inequality that concerns measurements performed on a system at different times. Violation to LGI indicates quantum coherence. We present a Leggett–Garg-type inequality compatible with more general neutrino oscillation frameworks, allowing the effects of decoherence to be taken into consideration. The inequality is applied to test coherence for data from Daya Bay, MINOS, and KamLAND experiments, and their results are compared to theoretical predictions to investigate decoherence. Both Daya Bay and MINOS data exhibit clear violations of over 10sigma , and of over 90% of theoretical predictions, while the KamLAND data exhibit violation of 1.9sigma , being of 58% of the theoretical prediction. The present work is the first to have considered the energy uncertainties in neutrino coherence tests.
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