Understanding and control of quantum nonlocality in complex scenarios. The future quantum internet and cybersecurity are dependent on quantum nonlocality, referring to the strong correlations between

Description

Understanding and control of quantum nonlocality in complex scenarios. The future quantum internet and cybersecurity are dependent on quantum nonlocality, referring to the strong correlations between distant quantum physical systems. Nonlocality has been studied mostly in two-party scenarios. This project aims to understand and realize multiparty scenarios. It expects to create significant new knowledge on complex quantum networks, generating new nonlocality forms. Anticipated outcomes include innovative quantum optics protocols and causal inference techniques enabling quantum nonlocality in diverse networks, opening new paths for quantum technology. Expected benefits will impact the future quantum internet with the ultimate cybersecurity for transferring economic, personal, health, and government data.. Scheme: Discovery Early Career Researcher Award. Field: 5108 - Quantum Physics. Lead: Dr Emanuele Polino