Abstract
Negative probability values have been widely employed as an indicator of the nonclassicality of quantum systems. Known as a quasiprobability distribution, they are regarded as a useful tool that provides significant insight into the underlying fundamentals of quantum theory when compared to the classical statistics. However, in this approach, an operational interpretation of these negative values with respect to the definition of probability—the relative frequency of occurred event—is missing. An alternative approach is therefore considered where the quasiprobability operationally reveals the negativity of measured quantities. We here present an experimental realization of the operational quasiprobability, which consists of sequential measurements in time. To this end, we implement two sets of polarization measurements of single photons. We find that the measured negativity can be interpreted in the context of selecting measurements, and it reflects the nonclassical nature of photons. Our results suggest a new operational way to unravel the nonclassicality of photons in the context of measurement selection.
Highlights
Negative probability values have been widely employed as an indicator of the nonclassicality of quantum systems
The essence of his idea is that a negative probability results in much less mathematical complications in intermediate steps for the analysis of a given physical event
Negative values have been widely used as an indicator of nonclassicality in regard to classical statistics
Summary
Negative probability values have been widely employed as an indicator of the nonclassicality of quantum systems. The OQ is free of the measurement-selection context, in the sense that the local marginals of the joint distribution are equal to the probabilities of the single measurements. Its OQ representation allows the joint distribution to be free of measurement-selection context as in the macrorealistic model, and it pays the quantum tariff of negative probabilities.
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