A maximum concurrence criterion to investigate absolutely maximally entangled states

TL;DR

This paper introduces a simple method based on maximal I-concurrence to identify and analyze absolutely maximally entangled states in pure quantum systems, revealing conditions for maximal entanglement across all bipartitions.

Contribution

It presents a new criterion using I-concurrence to determine maximal entanglement in pure states and characterizes conditions for AME states across all bipartitions.

Findings

Identifies numerous AME pure states with maximal bipartite entanglement.

Derives conditions for pure states to achieve maximal bipartition mixedness.

Shows states with odd numbers of coefficients do not satisfy AME criteria.

Abstract

We propose a straightforward method to determine the maximal entanglement of pure states using the criterion of maximal I-concurrence, a measure of entanglement. The square of concurrence for a bipartition $X|X^\prime$ of a pure state is defined as $E^2_{X| X ^\prime}=2[1-tr({\rho_X}^2)]$. From this, we can infer that the concurrence $E_{X| X ^\prime}$ reaches its maximum when $tr({\rho_X}^2)$ is minimized. Using this approach, we identify numerous Absolutely Maximally Entangled (AME) pure states that exhibit maximal entanglement across all possible bipartitions. Conditions are derived for pure states to achieve maximal mixedness in all bipartitions, revealing that any pure state with an odd number of subsystem coefficients does not meet the AME criterion. Furthermore, we obtain equal maximal multipartite entangled pure states across all bipartitions using our maximal concurrence criterion.