hoola Posted December 28, 2015 Posted December 28, 2015 what would happen to entangled particles as a gravity wave passes through one of the particles and not the other? Would this place a stress on the entanglement phenomena with a weak wave, and with a strong wave disrupt it totally? and what would happen to two entangled particles that eventually get separated past their "light cone" distance from each other, through the expansion of space? "
swansont Posted December 29, 2015 Posted December 29, 2015 If the gravitational interaction caused the particles to decohere, it would break the entanglement. But I don't see why gravity would do that for spin or polarization.
petrushka.googol Posted March 10, 2016 Posted March 10, 2016 A gravitational wave should not affect entanglement, which is an inherent property of the system. This is an example of superluminal communication, which is not restricted by the velocity of the gravitational wave which propagates at the speed of light.
imatfaal Posted March 10, 2016 Posted March 10, 2016 A gravitational wave should not affect entanglement, which is an inherent property of the system. This is an example of superluminal communication, which is not restricted by the velocity of the gravitational wave which propagates at the speed of light. There is no superluminal communication 1
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