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I have posted many times that entanglement between photons that have never existed at the same time is theoretically possible under QM. Now an experiment has been performed that demonstrates this. The technique uses entanglement swapping.
Photons 1 and 2 are created as an entangled pair. The polarization of photon 1 is measured, so it no longer exists. Later, photons 3 and 4 are created as an entangled pair. Even later, the entanglement of photon 2 is swapped with photon 3. This means that photon 4 is now entangled with photon 1, even though photon 1 no longer exists!
Experimental realization of that setup shows that photons 1 and 4 violate a Bell Inequality, demonstrating their entanglement. Whoever said QM was a "strange theory" was certainly not exaggerating! A future context affects the past (since the decision to entangle 1 and 4 is made after 4 is detected) !
Entanglement Between Photons that have Never Coexisted
E. Megidish, A. Halevy, T. Shacham, T. Dvir, L. Dovrat, H. S. Eisenberg
(Submitted on 19 Sep 2012)
"The role of the timing and order of quantum measurements is not just a fundamental question of quantum mechanics, but also a puzzling one. Any part of a quantum system that has finished evolving, can be measured immediately or saved for later, without affecting the final results, regardless of the continued evolution of the rest of the system. In addition, the non-locality of quantum mechanics, as manifested by entanglement, does not apply only to particles with spatial separation, but also with temporal separation. Here we demonstrate these principles by generating and fully characterizing an entangled pair of photons that never coexisted. Using entanglement swapping between two temporally separated photon pairs we entangle one photon from the first pair with another photon from the second pair. The first photon was detected even before the other was created. The observed quantum correlations manifest the non-locality of quantum mechanics in spacetime."
http://arxiv.org/abs/1209.4191
Photons 1 and 2 are created as an entangled pair. The polarization of photon 1 is measured, so it no longer exists. Later, photons 3 and 4 are created as an entangled pair. Even later, the entanglement of photon 2 is swapped with photon 3. This means that photon 4 is now entangled with photon 1, even though photon 1 no longer exists!
Experimental realization of that setup shows that photons 1 and 4 violate a Bell Inequality, demonstrating their entanglement. Whoever said QM was a "strange theory" was certainly not exaggerating! A future context affects the past (since the decision to entangle 1 and 4 is made after 4 is detected) !
Entanglement Between Photons that have Never Coexisted
E. Megidish, A. Halevy, T. Shacham, T. Dvir, L. Dovrat, H. S. Eisenberg
(Submitted on 19 Sep 2012)
"The role of the timing and order of quantum measurements is not just a fundamental question of quantum mechanics, but also a puzzling one. Any part of a quantum system that has finished evolving, can be measured immediately or saved for later, without affecting the final results, regardless of the continued evolution of the rest of the system. In addition, the non-locality of quantum mechanics, as manifested by entanglement, does not apply only to particles with spatial separation, but also with temporal separation. Here we demonstrate these principles by generating and fully characterizing an entangled pair of photons that never coexisted. Using entanglement swapping between two temporally separated photon pairs we entangle one photon from the first pair with another photon from the second pair. The first photon was detected even before the other was created. The observed quantum correlations manifest the non-locality of quantum mechanics in spacetime."
http://arxiv.org/abs/1209.4191