This phenomenon frightened Einstein.
Students from the Scottish University of Glasgow made the first in the history of the quantum entanglement, reports the Chronicle.info with reference to the Angle.
This is the first time people were able to photograph the interaction of particles, which is the basis of the science of quantum mechanics is the basis of quantum computing.
Quantum entanglement is a phenomenon in which the quantum States of multiple particles be interconnected regardless of the distance between them. This phenomenon is so strange that Einstein once called it “spooky activity at a distance.”
He and his colleagues have shown that if quantum mechanics would fully reflect the reality, then knowledge about the state of one part of the intricate system would automatically give information about the state of the other. This would mean that the information can be transmitted faster than the speed of light, which is impossible according to the laws of classical physics.
In quantum mechanics particles are both waves no fixed position in space. Only when there is the observer, they make one of the quantum States. Entangled particles affect the state of each other, even if the long distance between them.
Scottish scientists separated a pair of entangled photons, sending one of them through a liquid crystal material known as the borate-β-barium (nonlinear optical crystal), causing the four phase transitions, and the other directly on the detector. The camera shot the moment, when both photons were subjected to the same transformations, though were in different conditions. This is the moment of quantum entanglement.
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