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Abstract
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The emergence of the generalized uncertainty principle and the existence of a nonzero minimal length are intertwined. On the other hand, the Heisenberg uncertainty principle forms the core of the EPR paradox. Subsequently, here, the implications of resorting to the generalized uncertainty principle (or equally, the minimal length) instead of the Heisenberg uncertainty principle on the quantum non-locality are investigated by focusing on the Franson experiment in which energy-time entanglement is the backbone of understanding and explaining the results. The survey also unveils the power of such an experiment in verifying the generalized uncertainty principle.
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