Maximally entangled spin states in equivalent-neighbor systems of quantum dots in a microcavity

Jiri Bajer, Yu-xi Liu, Sahin Kaya Ozdemir, Yoshiro Hirayama, Adam Miranowicz, Wiesław Leoński, Nobuyuki Imoto, Masato Koashi

doi:10.1117/12.545067

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Maximally entangled spin states in equivalent-neighbor systems of quantum dots in a microcavity

DOI

Jiri Bajer
Yu-xi Liu
Sahin Kaya Ozdemir
Yoshiro Hirayama
Adam Miranowicz
Wiesław Leoński
Nobuyuki Imoto
Masato Koashi

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We analyze generation of maximally entangled states (EPR and W states) of the conduction-band electron spins in systems of an arbitrary number of semiconductor quantum dots under equivalent-neighbor interactions mediated by a single-mode cavity field. We show that the perfect EPR states in bipartite systems and perfect W states in multipartite ones can only be generatcd in systems of up to six and four dots, respectively, with single or equivalently, all dots except one excited.

Journal

SPIE Proceedings

SPIE Proceedings 5259 42-, 2003-11-21

SPIE

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CRID

1870302167923610240
DOI

10.1117/12.545067
ISSN

0277786X
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- OpenAIRE

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Maximally entangled spin states in equivalent-neighbor systems of quantum dots in a microcavity

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