Multipartite correlation measures and framework for multipartite quantum resources theory (2507.22348v1)

Abstract: In recent years, it has been recognized that properties of multipartite physical systems, such as multipartite entanglement, can be considered as important resources for quantum information and other areas of physics. However, the current framework of multipartite quantum resource theory is flawed. In this paper, we propose a more reasonable framework for multipartite quantum resource theory, with a particular focus on investigating true multipartite quantum correlation (MQC) measures. Beyond satisfying the conventional requirements of non-negativity, faithfulness, and non-increasing trend under free operations, these measures must also meet the unification and hierarchy conditions. We find that the true measures of different MQCs exhibit distinct hierarchy conditions based on their inherent characteristics. Additionally, the true MQC measures should also satisfy the symmetry for symmetric MQCs. Based on this framework, we verify that multipartite entanglement, $k$-entanglement, $k$-partite entanglement, multipartite non-PPT, multipartite coherence, multipartite imaginarity, multipartite multi-mode Gaussian non-product correlation, multipartite multi-mode Gaussian imaginarity, and multipartite single-mode Gaussian coherence are all multipartite quantum resources. We also show that, multipartite steering is an asymmetric multipartite quantum resource. Finally, the monogamy relations for true measures of symmetric MQCs are discussed.