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Minimal and maximal operator spaces and operator systems in entanglement theory |
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| Authors: | Nathaniel Johnston David W. Kribs Vern I. Paulsen |
| Affiliation: | a Department of Mathematics and Statistics, University of Guelph, Guelph, Ontario N1G 2W1, Canada b Institute for Quantum Computing, University of Waterloo, Waterloo, Ontario N2L 3G1, Canada c Department of Mathematics, University of Houston, Houston, TX 77204-3476, USA |
| Abstract: | We examine k-minimal and k-maximal operator spaces and operator systems, and investigate their relationships with the separability problem in quantum information theory. We show that the matrix norms that define the k-minimal operator spaces are equal to a family of norms that have been studied independently as a tool for detecting k-positive linear maps and bound entanglement. Similarly, we investigate the k-super minimal and k-super maximal operator systems that were recently introduced and show that their cones of positive elements are exactly the cones of k-block positive operators and (unnormalized) states with Schmidt number no greater than k, respectively. We characterize a class of norms on the k-super minimal operator systems and show that the completely bounded versions of these norms provide a criterion for testing the Schmidt number of a quantum state that generalizes the recently-developed separability criterion based on trace-contractive maps. |
| Keywords: | Operator space Operator system Quantum information theory Entanglement |
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