Hierarchy of Genuine Multipartite Quantum Correlations

Abstract

Classifying states which exhibiting different statistical correlations is among the most important problems in quantum information science and quantum many-body physics. In bipartite case, there is a clear hierarchy of states with different correlations: total correlation (T) ⊃neq discord (D) ⊃neq entanglement (E) ⊃neq steering (S) ⊃neq Bell~nonlocality (NL). However, very little is known about genuine multipartite correlations (GMC) for both conceptual and technical difficulties. In this work, we show that, for any N-partite qudit states, there also exist such a hierarchy: genuine multipartite total correlations (GMT) ⊃eq genuine multipartite discord (GMD) ⊃eq genuine multipartite entanglement (GME) ⊃eq genuine multipartite steering (GMS) ⊃eq genuine multipartite nonlocality (GMNL). Furthermore, by constructing precise states, we show that GMT, GME and GMS are inequivalent with each other, thus GMT ⊃neq GME ⊃neq GMS.