Statistics of leading digits leads to unification of quantum correlations

Chanda, T. ; Das, T. ; Sadhukhan, D. ; Pal, A. K. ; Sen(De), A. ; Sen, U. (2016) Statistics of leading digits leads to unification of quantum correlations EPL (Europhysics Letters), 114 (3). p. 30004.

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Official URL: https://doi.org/10.1209%2F0295-5075%2F114%2F30004

Abstract

We show that the frequency distribution of the first significant digits of the numbers in the data sets generated from a large class of measures of quantum correlations, which are either entanglement measures, or belong to the information-theoretic paradigm, exhibit a universal behaviour. In particular, for Haar uniformly simulated arbitrary two-qubit states, we find that the first-digit distribution corresponding to a collection of chosen computable quantum correlation quantifiers tend to follow the first-digit law, known as the Benford's law, when the rank of the states increases. Considering a two-qubit state which is obtained from a system governed by paradigmatic spin Hamiltonians, namely, the XY model in a transverse field, and the XXZ model, we show that entanglement as well as information theoretic measures violate the Benford's law. We quantitatively discuss the violation of the Benford's law by using a violation parameter, and demonstrate that the violation parameter can signal quantum phase transitions occurring in these models. We also comment on the universality of the statistics of first significant digits corresponding to appropriate measures of quantum correlations in the case of multipartite systems as well as systems in higher dimensions.

Item Type:Article
ID Code:125776
Deposited On:12 Oct 2022 10:25
Last Modified:12 Oct 2022 10:25

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