Non-associativity, supersymmetry and hidden variables
classification
🪐 quant-ph
hep-phhep-thmath-phmath.MPmath.RA
keywords
generalizationquantummechanicsoctonionicoctonionsquaternionssupersymmetricbacause
read the original abstract
It is shown that the supersymmetric quantum mechanics has an octonionic generalization. The generalization is based on the inclusion of quaternions into octonions. The elements from the coset octonions/quaternions are unobservables bacause they cannot be considered as quantum operators as a consequence of their non-associative properties. The idea that the octonionic generalization of the supersymmetric quantum mechanics describes an observable particle formed with unobservable ``particles'' is presented.
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