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Symmetric vs. bosonic extension for bipartite states

Published 15 Sep 2018 in quant-ph, math-ph, and math.MP | (1809.05641v1)

Abstract: A bipartite state $\rho{AB}$ has a $k$-symmetric extension if there exists a $k+1$-partite state $\rho{AB_1B_2\ldots B_k}$ with marginals $\rho{AB_i}=\rho{AB}, \forall i$. The $k$-symmetric extension is called bosonic if $\rho{AB_1B_2\ldots B_k}$ is supported on the symmetric subspace of $B_1B_2\ldots B_k$. Understanding the structure of symmetric/bosonic extension has various applications in the theory of quantum entanglement, quantum key distribution and the quantum marginal problem. In particular, bosonic extension gives a tighter bound for the quantum marginal problem based on seperability. In general, it is known that a $\rho{AB}$ admitting symmetric extension may not have bosonic extension. In this work, we show that when the dimension of the subsystem $B$ is $2$ (i.e. a qubit), $\rho{AB}$ admits a $k$-symmetric extension if and only if it has a $k$-bosonic extension. Our result has an immediate application to the quantum marginal problem and indicates a special structure for qubit systems based on group representation theory.

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