Protecting Quantum Information Encoded in Decoherence Free States
  Against Exchange Errors

A.M. Steane; D. Gottesman; D.A. Lidar; D.A. Lidar; Daniel A. Lidar; David Bacon; E. Knill; G. Agarwal; G. Burkard; G.M. Palma; H. K. Lo; I. V. Schensted; J. Preskill; Julia Kempe; K. Birgitta Whaley; L.-M Duan; P. Zanardi; P. Zanardi; P. Zanardi; P.W. Shor; R. Dicke; R. Laflamme; R. Laflamme; W. Jones

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Protecting Quantum Information Encoded in Decoherence Free States Against Exchange Errors

Authors: A.M. Steane
D. Gottesman
D.A. Lidar
D.A. Lidar
Daniel A. Lidar
David Bacon
E. Knill
G. Agarwal
G. Burkard
G.M. Palma
H. K. Lo
I. V. Schensted
J. Preskill
Julia Kempe
K. Birgitta Whaley
L.-M Duan
P. Zanardi
P. Zanardi
P. Zanardi
P.W. Shor
R. Dicke
R. Laflamme
R. Laflamme
W. Jones
Publication date: 2 December 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The exchange interaction between identical qubits in a quantum information processor gives rise to unitary two-qubit errors. It is shown here that decoherence free subspaces (DFSs) for collective decoherence undergo Pauli errors under exchange, which however do not take the decoherence free states outside of the DFS. In order to protect DFSs against these errors it is sufficient to employ a recently proposed concatenated DFS-quantum error correcting code scheme [D.A. Lidar, D. Bacon and K.B. Whaley, Phys. Rev. Lett. {\bf 82}, 4556 (1999)].Comment: 7 pages, no figures. Discussion in section V.A. significantly expanded. Several small changes. Two authors adde

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