The quantum cloner machine maps an unknown arbitrary input qubit into two optimal clones and one optimal flipped qubit. By combining linear and nonlinear optical methods we experimentally implement a scheme that, after the cloning transformation, restores the original input qubit in one of the output channels, by using local measurements, classical communication, and feedforward. This nonlocal method demonstrates how the information on the input qubit can be restored after the cloning process. The realization of the reversion process is expected to find useful applications in the field of modern multipartite quantum cryptography.
Experimental reversion of the optimal quantum cloning and flipping processes / Sciarrino, Fabio; Veronica, Secondi; DE MARTINI, Francesco. - In: PHYSICAL REVIEW A. - ISSN 1050-2947. - 73:4(2006), pp. 040303-1-040303-4. [10.1103/physreva.73.040303]
Experimental reversion of the optimal quantum cloning and flipping processes
SCIARRINO, Fabio;DE MARTINI, Francesco
2006
Abstract
The quantum cloner machine maps an unknown arbitrary input qubit into two optimal clones and one optimal flipped qubit. By combining linear and nonlinear optical methods we experimentally implement a scheme that, after the cloning transformation, restores the original input qubit in one of the output channels, by using local measurements, classical communication, and feedforward. This nonlocal method demonstrates how the information on the input qubit can be restored after the cloning process. The realization of the reversion process is expected to find useful applications in the field of modern multipartite quantum cryptography.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
