One-and-a-half quantum de Finetti theorems

Abstract

We prove a new kind of quantum de Finetti theorem for representations of the unitary group U(d). Consider a pure state that lies in the irreducible representation Umu+nu for Young diagrams mu and nu. Umu+nu is contained in the tensor product of Umu and Unu; let xi be the state obtained by tracing out Unu. We show that xi is close to a convex combination of states Uv, where U is in U(d) and v is the highest weight vector in Umu. When Umu+nu is the symmetric representation, this yields the conventional quantum de Finetti theorem for symmetric states, and our method of proof gives near-optimal bounds for the approximation of xi by a convex combination of product states. For the class of symmetric Werner states, we give a second de Finetti-style theorem (our 'half' theorem); the de Finetti-approximation in this case takes a particularly simple form, involving only product states with a fixed spectrum. Our proof uses purely group theoretic methods, and makes a link with the shifted Schur functions. It also provides some useful examples, and gives some insight into the structure of the set of convex combinations of product states.

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