Geometry of the 3-Qubit State, Entanglement and Division Algebras

Bennet C H; Bennet C H; Bennett C H; Bennett C H; Bogdan A Bernevig; Bose S; Carteret H A; Ekert A K; Ekert A K; Greenberger D M; Han-Dong Chen; Hill S; Hillery M; Horodecki M; Horodecki M; Kus M; Miyake A; Miyake A; Mosseri R; Rains E M; Vedral V; Vedral V; Vedral V; Wootters W K

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Geometry of the 3-Qubit State, Entanglement and Division Algebras

Authors: Bennet C H
Bennet C H
Bennett C H
Bennett C H
Bogdan A Bernevig
Bose S
Carteret H A
Ekert A K
Ekert A K
Greenberger D M
Han-Dong Chen
Hill S
Hillery M
Horodecki M
Horodecki M
Kus M
Miyake A
Miyake A
Mosseri R
Rains E M
Vedral V
Vedral V
Vedral V
Wootters W K
Publication date: 12 March 2004
Publisher: 'IOP Publishing'
Doi

Abstract

We present a generalization to 3-qubits of the standard Bloch sphere representation for a single qubit and of the 7-dimensional sphere representation for 2 qubits presented in Mosseri {\it et al.}\cite{Mosseri2001}. The Hilbert space of the 3-qubit system is the 15-dimensional sphere

S^{15}

, which allows for a natural (last) Hopf fibration with

S^8

as base and

S^7

as fiber. A striking feature is, as in the case of 1 and 2 qubits, that the map is entanglement sensitive, and the two distinct ways of un-entangling 3 qubits are naturally related to the Hopf map. We define a quantity that measures the degree of entanglement of the 3-qubit state. Conjectures on the possibility to generalize the construction for higher qubit states are also discussed.Comment: 12 pages, 2 figures, final versio

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