Minimal Informationally Complete Measurements for Pure States

A. Peres; Andrew Silberfarb; C.A. Fuchs; C.M. Caves; Carlton M. Caves; E. Prugovečki; J.-P. Amiet; J.-P. Amiet; J.A. Wyler; J.M. Renes; J.M. Renes; J.V. Corbett; P. Busch; S. Weigert; S. Weigert; Steven T. Flammia

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Minimal Informationally Complete Measurements for Pure States

Authors: A. Peres
Andrew Silberfarb
C.A. Fuchs
C.M. Caves
Carlton M. Caves
E. Prugovečki
J.-P. Amiet
J.-P. Amiet
J.A. Wyler
J.M. Renes
J.M. Renes
J.V. Corbett
P. Busch
S. Weigert
S. Weigert
Steven T. Flammia
Publication date: 1 January 2004
Publisher: 'Springer Science and Business Media LLC'
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Abstract

We consider measurements, described by a positive-operator-valued measure (POVM), whose outcome probabilities determine an arbitrary pure state of a D-dimensional quantum system. We call such a measurement a pure-state informationally complete (PSI-complete) POVM. We show that a measurement with 2D-1 outcomes cannot be PSI-complete, and then we construct a POVM with 2D outcomes that suffices, thus showing that a minimal PSI-complete POVM has 2D outcomes. We also consider PSI-complete POVMs that have only rank-one POVM elements and construct an example with 3D-2 outcomes, which is a generalization of the tetrahedral measurement for a qubit. The question of the minimal number of elements in a rank-one PSI-complete POVM is left open.Comment: 2 figures, submitted for the Asher Peres festschrif

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