Breaking of Charge Symmetry in Quantum Mechanics
American Journal of Modern Physics
Volume 4, Issue 4, July 2015, Pages: 212-216
Received: Apr. 14, 2015; Accepted: Jul. 4, 2015; Published: Jul. 15, 2015
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Author
Klaus Lewin, Sektion Physik, Humboldt-University, Berlin, Germany (retired since 1992)
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Abstract
Deuteron photo-decay with subsequent proton detection represents an experiment similar to Bohm’s version of the EPR arrangement replacing the entangled spin singlet state of the two-fermion system by entangled isospin states. Dropping the conception of truth, the detection as charge symmetry breaking event a posteriori leads up to a pre-existing proton identifying the second possibly far apart nucleon as neutron. That explains what the entangled isospin state predicts without assumption of a superluminal correlation.
Keywords
Deuteron Photo-Decay, Entangled Isospin States, Charge Symmetry, Proton Detection, Retroactivity
To cite this article
Klaus Lewin, Breaking of Charge Symmetry in Quantum Mechanics, American Journal of Modern Physics. Vol. 4, No. 4, 2015, pp. 212-216. doi: 10.11648/j.ajmp.20150404.18
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