We study many-party correlations quantified in terms of the Umegaki relative entropy (divergence) from a Gibbs family known as a hierarchical model. We derive these quantities from the maximum-entropy principle which was used earlier to define the closely related irreducible correlation. We point out differences between quantum states and probability vectors which exist in hierarchical models, in the divergence from a hierarchical model and in local maximizers of this divergence. The differences are, respectively, missing factorization, discontinuity and reduction of uncertainty. We discuss global maximizers of the mutual information of separable qubit states
Quantum discord is a measure of quantum correlations beyond the entanglement-separability paradigm. ...
Since the introduction of the (smooth) min- and max-entropy, various results have affirmed their fun...
This paper develops a new divergence that generalizes relative entropy and can be used to compare pr...
Abstract. We quantify higher-order correlations in a composite quantum system in terms of the diverg...
A new canonical divergence is put forward for generalizing an information-geometric measure of comp...
We identify the correlation in a state of two identical particles as the residual information beyond...
We discuss the problem of the separation of total correlations in a given quantum state into entangl...
University of Technology Sydney. Faculty of Engineering and Information Technology.We investigate qu...
We study the inverse problem of inferring the state of a finite-level quantum system from expected v...
Abstract. We revisit the maximum-entropy inference of the state of a finite-level quantum system und...
© 2015, Springer Science+Business Media New York. Audenaert and Datta recently introduced a two-para...
We give a pedagogical introduction to quantum discord and discuss the problem of separation of total...
We discuss an alternative to relative entropy as a measure of distance between mixed quantum states....
We show the entanglement entropy in certain quantum field theories to contain state-dependent diverg...
We discuss a special class of generalized divergence measures by the use of generator functions. Any...
Quantum discord is a measure of quantum correlations beyond the entanglement-separability paradigm. ...
Since the introduction of the (smooth) min- and max-entropy, various results have affirmed their fun...
This paper develops a new divergence that generalizes relative entropy and can be used to compare pr...
Abstract. We quantify higher-order correlations in a composite quantum system in terms of the diverg...
A new canonical divergence is put forward for generalizing an information-geometric measure of comp...
We identify the correlation in a state of two identical particles as the residual information beyond...
We discuss the problem of the separation of total correlations in a given quantum state into entangl...
University of Technology Sydney. Faculty of Engineering and Information Technology.We investigate qu...
We study the inverse problem of inferring the state of a finite-level quantum system from expected v...
Abstract. We revisit the maximum-entropy inference of the state of a finite-level quantum system und...
© 2015, Springer Science+Business Media New York. Audenaert and Datta recently introduced a two-para...
We give a pedagogical introduction to quantum discord and discuss the problem of separation of total...
We discuss an alternative to relative entropy as a measure of distance between mixed quantum states....
We show the entanglement entropy in certain quantum field theories to contain state-dependent diverg...
We discuss a special class of generalized divergence measures by the use of generator functions. Any...
Quantum discord is a measure of quantum correlations beyond the entanglement-separability paradigm. ...
Since the introduction of the (smooth) min- and max-entropy, various results have affirmed their fun...
This paper develops a new divergence that generalizes relative entropy and can be used to compare pr...