Genuinely multipoint temporal quantum correlations and universal measurement-based quantum computing
Genuinely multipoint temporal quantum correlations and universal measurement-based quantum computing
We introduce a constructive procedure that maps all spatial correlations of a broad class of $d$-level states of $N$ parties into temporal correlations between general $d$-outcome quantum measurements performed on a single $d$-level system. This allows us to present temporal phenomena analogous to genuinely multipartite nonlocal phenomena, such as Greenberger-Horne-Zeilinger …