We present the results of some experimental tests of quantum nonlocality performed by two-photon states, entangled both in polarization and momentum, namely hyperentangled states and two-photon four-qubit linear cluster states. These states, which double the number of available qubits with respect to the standard two-photon entangled states, are engineered by a simple experimental method, which adopts linear optics and a single type I nonlinear crystal. The tests of local realism performed with these states represent a generalization of the Greenberger, Home, and Zeilinger (GHZ) theorem to the case of two entangled particles.
Experiments of quantum nonlocality with polarization-momentum entangled photon pairs / Vallone, Giuseppe; Mataloni, Paolo; DE MARTINI, Francesco; Barbieri, Marco. - In: LASER PHYSICS. - ISSN 1054-660X. - 17:7(2007), pp. 993-1000. [10.1134/s1054660x07070146]
Experiments of quantum nonlocality with polarization-momentum entangled photon pairs
VALLONE, GIUSEPPE;MATALONI, Paolo;DE MARTINI, Francesco;BARBIERI, MARCO
2007
Abstract
We present the results of some experimental tests of quantum nonlocality performed by two-photon states, entangled both in polarization and momentum, namely hyperentangled states and two-photon four-qubit linear cluster states. These states, which double the number of available qubits with respect to the standard two-photon entangled states, are engineered by a simple experimental method, which adopts linear optics and a single type I nonlinear crystal. The tests of local realism performed with these states represent a generalization of the Greenberger, Home, and Zeilinger (GHZ) theorem to the case of two entangled particles.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
