If the group is then split into sub-groups according to these later results, the identity of the members of those various sub-groups is information that can only be obtained after the final measurements, and not before. The results of the intermediate measurements will, on average, imply certain results for the later measurements but will not determine them. Post-selection, pioneered by Yakir Aharonov of Tel Aviv University, involves preparing a group of particles in some initial state, measuring each of the particles at a certain point in time, and then making a second set of measurements at a slightly later time. So while the results of a measurement carried out on a set of particles will have a known probability distribution, individual results cannot be predicted. That is not the case in quantum mechanics, in which a particle’s evolution is inherently probabilistic. In classical physics, the initial conditions of a set of particles and the rules governing the behaviour of those particles are in principle enough to determine the properties of the particles at any arbitrary point in the future. This counterintuitive result was achieved thanks to the quantum-mechanical concept of post-selection. That is the conclusion of a group of physicists from Israel and the UK, which has shown how the strange laws of quantum mechanics permit a photon to be in one place and its circular polarization in another. It is not only in Wonderland, however, that properties of objects can exist independently of the objects themselves. “It’s the most curious thing I ever saw in my life!” Alice thought to herself when she saw a Cheshire cat disappear and leave only its grin behind.
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