Entanglement between two superconducting qubits via interaction with non-classical radiation

Gioacchino Massimo Palma; Myungshik Kim; Giuseppe Falci; G. Massimo Palma; Mauro Paternostro

Entanglement between two superconducting qubits via interaction with non-classical radiation

Gioacchino Massimo Palma, Myungshik Kim, Giuseppe Falci, G. Massimo Palma, Mauro Paternostro

Fisica e Chimica - Emilio Segrè

Risultato della ricerca: Article › peer review

76 Citazioni (Scopus)

Abstract

We propose a scheme to physically interface superconducting nanocircuits and quantum optics. We address the transfer of quantum information between systems having different physical natures and defined in Hilbert spaces of different dimensions. In particular, we investigate the transfer of the entanglement initially in a nonclassical state of an infinite dimensional system to a pair of superconducting charge qubits. This setup is able to drive an initially separable state of the qubits into an almost pure, highly entangled state suitable for quantum information processing.

Lingua originale	Undefined/Unknown
pagine (da-a)	214502-214507
Rivista	PHYSICA. B, CONDENSED MATTER
Volume	69
Stato di pubblicazione	Published - 2004

All Science Journal Classification (ASJC) codes

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???subjectarea.asjc.3100.3104???

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AU - Palma, Gioacchino Massimo

AU - Kim, Myungshik

AU - Falci, Giuseppe

AU - Palma, G. Massimo

AU - Paternostro, Mauro

PY - 2004

Y1 - 2004

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AB - We propose a scheme to physically interface superconducting nanocircuits and quantum optics. We address the transfer of quantum information between systems having different physical natures and defined in Hilbert spaces of different dimensions. In particular, we investigate the transfer of the entanglement initially in a nonclassical state of an infinite dimensional system to a pair of superconducting charge qubits. This setup is able to drive an initially separable state of the qubits into an almost pure, highly entangled state suitable for quantum information processing.

UR - http://hdl.handle.net/10447/24391

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VL - 69

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EP - 214507

JO - Physica B: Condensed Matter

JF - Physica B: Condensed Matter

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