Probing the robustness of various self-testing protocols for mulipartite entangled states

TL;DR

This paper compares the robustness of different self-testing protocols for multipartite GHZ states, identifying Svetlichny's Bell operator as the most resilient in noisy conditions.

Contribution

It provides a systematic comparison of Svetlichny and MABK-based self-testing schemes, highlighting Svetlichny's superior robustness for practical quantum certification.

Findings

Svetlichny's Bell operator yields higher fidelity bounds under noise.

Different protocols exhibit markedly different robustness levels.

Svetlichny-based self-testing is most suitable for noisy experiments.

Abstract

Device-independent certification of multipartite entangled states plays a central role in a wide range of practical applications, including quantum networks, conference key agreement, and verifiable distributed quantum computation. A particularly important class of multipartite entangled states is the class of Greenberger-Horne-Zeilinger (GHZ) states. Many Bell operators have been proposed to self-test GHZ states. However, in practical scenarios, due to imperfections and the finite collection of statistics, the observed statistics do not satisfy the ideal self-testing relations. Hence, it becomes essential to investigate and compare the robustness of the different self-testing protocols. In this work, we investigate the robustness of self-testing schemes constructed from Bell operators due to Svetlichny and Mermin--Ardehali--Belinskii--Klyshko (MABK), using the analytic operator-inequality framework developed by Kaniewski [\href{https://doi.org/10.1103/PhysRevLett.117.070402}{Phys. Rev. Lett. 117, 070402 (2016)}]. We derive lower bounds on the extractable fidelity as a function of the observed value of these Bell operators. Although these protocols self-test the same underlying state, they exhibit markedly different levels of robustness. By comparing the resulting fidelity bounds, we demonstrate that the self-testing scheme based on the Svetlichny's Bell operator is the more robust among the two. Our results thus identify the Svetlichny operator based self-testing protocol as the most favorable candidate for device-independent certification of GHZ states in realistic, noisy experimental scenarios.