Physical Sciences Forum (Feb 2023)

Entanglement—A Higher Order Symmetry

  • Paul O’Hara

DOI
https://doi.org/10.3390/ECU2023-14011
Journal volume & issue
Vol. 7, no. 1
p. 4

Abstract

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Can we accurately model the spin state of a quantum particle? If so, we should be able to make identical copies of such a state and also obtain its mirror image. In quantum mechanics, many subatomic particles can form entangled pairs that are mirror images of each other, although the state of an individual particle cannot be duplicated or cloned as experimentally demonstrated by Aspect, Clauser and Zeilinger, the winners of the Nobel Prize in Physics 2022. We show that there is a higher-order symmetry associated with the SL(2,C) group that underlies the singlet state, which means that the singlet pairing preserves Lorentz transformations independently of the metric used. The Pauli exclusion principle can be derived from this symmetry.

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