Tripartite entanglement and tripartite steering in three-qubit pure states induced by vacuum--one-photon superpositions

Abstract

Utilizing a tritter with variable parameter T and induced by vacuum--one-photon superpositions 0 +α 1 with α = α eiφ , we propose a scheme to prepare a class of three-qubit pure states. These states take the form of 123=c0 000 +c1 100 +c2 010 +c3 001 . The coefficients (c0, c1, c2, and c3) can be manipulated through interaction parameters ( α , φ , and T). In line with Xie and Eberly's work[Phys. Rev. Lett. 127, 040403 (2021)], we investigate the genuine tripartite entanglement for 123 by using the measure of concurrence fill. Drawing on Hao et al.'s research [Phys. Rev. Lett. 128, 120402 (2021)], we examine tripartite steering for 123 under certain measurements based on the uncertainty relations criterion. We identify nine potential configurations exhibiting varying steerability across different parameter spaces. It is important to highlight that, while the state 123 exhibits entanglement, steering remains unattainable in a substantial portion of the parameter space.