Two-party entanglement distribution in XXZ spin chains with the exponential and power-law long-range interactions

Abstract: Entanglement distribution is a fundamental property in quantum many-body physics, but the effect of long-range interactions on the distribution has not been fully understood. Here, we study long-range two-party entanglement (TPE) and explore its distribution properties in XXZ spin chains with the exponential and power-law long-range interactions(ELRIs and PLRIs). In the thermodynamic limit case with the ELRIs, the TPE quantified by two-qubit concurrence decays exponentially along with two-site distance and the long-range concurrences can indicate the paramagnetic-ferromagnetic phase transition. We present a fine-grained entanglement distribution relations among the entanglement truncation length, total concurrences and two-tangles in the infinite spin chains. Moreover, in the finite XXZ chain with the more common PLRIs, the TPE decays algebraically along with the two-spin distance, and the total concurrence can exhibit a piecewise function with respect to total two-tangles. These new presented TPE distribution relations can be regarded as the generalization of Koashi-Bu\v{z}ek-and-Imoto bound for the long-range quantum models, and have potential applications in quantum information processing.