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The Schur basis on n d-dimensional quantum systems is a generalization of the total angular momentum basis that is useful for exploiting symmetry under permutations or collective unitary rotations. We present efficient size polyn, d, log (1/epsilon) for accuracy epsilon quantum circuits for the Schur transform, which is the change of basis between the computational and the Schur bases. Our circuits provide explicit efficient methods for solving such diverse problems as estimating the spectrum of a density operator, quantum hypothesis testing, and communicating without a shared reference frame. We thus render tractable a large series of methods for extracting resources from quantum systems and for numerous quantum information protocols.
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Dave Bacon
Google (United States)
Isaac L. Chuang
Massachusetts Institute of Technology
Aram W. Harrow
Instituto de Física Teórica
Physical Review Letters
Massachusetts Institute of Technology
University of Washington
California Institute of Technology
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Bacon et al. (Fri,) studied this question.
synapsesocial.com/papers/6a1615f5e2e303e527195dd0 — DOI: https://doi.org/10.1103/physrevlett.97.170502
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