Irreversibility of entanglement distillation for a class of symmetric states

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OriginalspracheEnglisch
Seiten (von - bis)062304
Seitenumfang1
FachzeitschriftPhys. Rev. A
Jahrgang69
Ausgabenummer6
PublikationsstatusVeröffentlicht - 2004

Abstract

We investigate the irreversibility of entanglement distillation for a symmetric (d+1)-parameter family of mixed bipartite quantum states acting on Hilbert spaces of arbitrary dimension dxd. We prove that in this family the entanglement cost is generically strictly larger than the distillable entanglement, so that the set of states for which the distillation process is asymptotically reversible is of measure zero. This remains true even if the distillation process is catalytically assisted by pure-state entanglement and every operation is allowed, which preserves the positivity of the partial transpose. It is shown that reversibility occurs only in cases where the state is a tagged mixture. The reversible cases are shown to be completely characterized by minimal uncertainty vectors for entropic uncertainty relations.

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Irreversibility of entanglement distillation for a class of symmetric states. / Vollbrecht, K. G. H.; Werner, R. F.; Wolf, M. M.
in: Phys. Rev. A, Jahrgang 69, Nr. 6, 2004, S. 062304.

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Vollbrecht KGH, Werner RF, Wolf MM. Irreversibility of entanglement distillation for a class of symmetric states. Phys. Rev. A. 2004;69(6):062304. doi: 10.1103/PhysRevA.69.062304
Vollbrecht, K. G. H. ; Werner, R. F. ; Wolf, M. M. / Irreversibility of entanglement distillation for a class of symmetric states. in: Phys. Rev. A. 2004 ; Jahrgang 69, Nr. 6. S. 062304.
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abstract = "We investigate the irreversibility of entanglement distillation for a symmetric (d+1)-parameter family of mixed bipartite quantum states acting on Hilbert spaces of arbitrary dimension dxd. We prove that in this family the entanglement cost is generically strictly larger than the distillable entanglement, so that the set of states for which the distillation process is asymptotically reversible is of measure zero. This remains true even if the distillation process is catalytically assisted by pure-state entanglement and every operation is allowed, which preserves the positivity of the partial transpose. It is shown that reversibility occurs only in cases where the state is a tagged mixture. The reversible cases are shown to be completely characterized by minimal uncertainty vectors for entropic uncertainty relations.",
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AU - Wolf, M. M.

N1 - Funding information: M.M.W. is grateful to H. Maassen for valuable comments on entropic uncertainty relations. Funding by the European Union project EQUIP (Contract No. IST-1999-11053) and financial support from the DFG (Bonn) is gratefully acknowledged.

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N2 - We investigate the irreversibility of entanglement distillation for a symmetric (d+1)-parameter family of mixed bipartite quantum states acting on Hilbert spaces of arbitrary dimension dxd. We prove that in this family the entanglement cost is generically strictly larger than the distillable entanglement, so that the set of states for which the distillation process is asymptotically reversible is of measure zero. This remains true even if the distillation process is catalytically assisted by pure-state entanglement and every operation is allowed, which preserves the positivity of the partial transpose. It is shown that reversibility occurs only in cases where the state is a tagged mixture. The reversible cases are shown to be completely characterized by minimal uncertainty vectors for entropic uncertainty relations.

AB - We investigate the irreversibility of entanglement distillation for a symmetric (d+1)-parameter family of mixed bipartite quantum states acting on Hilbert spaces of arbitrary dimension dxd. We prove that in this family the entanglement cost is generically strictly larger than the distillable entanglement, so that the set of states for which the distillation process is asymptotically reversible is of measure zero. This remains true even if the distillation process is catalytically assisted by pure-state entanglement and every operation is allowed, which preserves the positivity of the partial transpose. It is shown that reversibility occurs only in cases where the state is a tagged mixture. The reversible cases are shown to be completely characterized by minimal uncertainty vectors for entropic uncertainty relations.

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DO - 10.1103/PhysRevA.69.062304

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SP - 062304

JO - Phys. Rev. A

JF - Phys. Rev. A

SN - 2469-9934

IS - 6

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