Entanglement between static and flying qubits in a semiconducting carbon nanotube

Entanglement between static and flying qubits in a semiconducting carbon nanotube

Entanglement can be generated by two electrons in a spin-zero state on a semiconducting single-walled carbon nanotube. The two electrons, one weakly bound in a shallow well in the conduction band, and the other injected into the conduction band, are coupled by the Coulomb interaction. Both transmiss...

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Veröffentlicht in:Journal of physics. Condensed matter 2006-05, Vol.18 (21), p.S851-S866
Hauptverfasser: Gunlycke, D, Jefferson, J H, Rejec, T, Ramšak, A, Pettifor, D G, Briggs, G A D
Format: Artikel
Sprache:eng
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Zusammenfassung:Entanglement can be generated by two electrons in a spin-zero state on a semiconducting single-walled carbon nanotube. The two electrons, one weakly bound in a shallow well in the conduction band, and the other injected into the conduction band, are coupled by the Coulomb interaction. Both transmission and entanglement are dependent on the well characteristics, which can be controlled by a local gate, and on the kinetic energy of the injected electron. Regimes with different degrees of electron correlation exhibit full or partial entanglement. In the latter case, the maximum entanglement can be estimated as a function of width and separation of a pair of singlet-triplet resonances.
ISSN:0953-8984
1361-648X
DOI:10.1088/0953-8984/18/21/S11