Parameterized bipartite entanglement measures and entanglement constraints

Abstract

In this paper, we propose a novel class of parameterized entanglement measures which are named as Gω-concurrence (GωC) (0<ω≤1), and demonstrate comprehensively that they satisfy all the necessary axiomatic conditions required for an entanglement measure. Furthermore, we derive an analytical formula relating GωC to concurrence for the range of 0.85798≤ω≤1 within two-qubit systems. Additionally, we prove a new polygamy relation of multiqubit quantum entanglement in terms of Gω-concurrence of assistance (GωCoA). However, it fails to obey the monogamy relation, but we have demonstrated that the squared Gω-concurrence (SGωC) does obeys a general monogamy relation in an arbitrary N-qubit mixed state. Based on the monogamy properties of SGωC, we can construct the corresponding multipartite entanglement indicators, which can detect all genuine multiqubit entangled states even in the case of N-tangle vanishes. In addition, for multipartite higher-dimensional systems, it is illustrated that SGωC still has the applicability of the monogamy relation.

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