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Geometry of the set of mixed quantum states: An apophatic approach

arXiv
Authors: Ingemar Bengtsson, Stephan Weis, Karol Życzkowski

Year

2011

Paper ID

29280

Status

Preprint

Abstract Read

~2 min

Abstract Words

127

Citations

N/A

Abstract

The set of quantum states consists of density matrices of order N, which are hermitian, positive and normalized by the trace condition. We analyze the structure of this set in the framework of the Euclidean geometry naturally arising in the space of hermitian matrices. For N=2 this set is the Bloch ball, embedded in mathbb R3. For N geq 3 this set of dimensionality N2-1 has a much richer structure. We study its properties and at first advocate an apophatic approach, which concentrates on characteristics not possessed by this set. We also apply more constructive techniques and analyze two dimensional cross-sections and projections of the set of quantum states. They are dual to each other. At the end we make some remarks on certain dimension dependent properties.

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  • It adds a 2011 reference point for readers tracking recent quantum research.
  • The set of quantum states consists of density matrices of order N, which are hermitian, positive and normalized by the trace condition.

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