The principles and methods of conformal quantum geometrodynamics based on Weyl differential geometry are presented. The theory applied to the case of the relativistic single quantum spin-12 leads to a novel and unconventional derivation of the Dirac equation. The further extension of the theory to the case of two-spins-12 in the EPR entangled state and to the related violation of Bell inequalities leads, by an exact non-relativistic analysis, to an insightful resolution of all paradoxes implied by quantum nonlocality.
Nonlocality, no-signalling, and Bellʼs theorem investigated by Weyl conformal differential geometry / Francesco De, Martini; Santamato, Enrico. - In: PHYSICA SCRIPTA. - ISSN 0031-8949. - T163:(2014), p. 014015. [10.1088/0031-8949/2014/T163/014015]
Nonlocality, no-signalling, and Bellʼs theorem investigated by Weyl conformal differential geometry
SANTAMATO, ENRICO
2014
Abstract
The principles and methods of conformal quantum geometrodynamics based on Weyl differential geometry are presented. The theory applied to the case of the relativistic single quantum spin-12 leads to a novel and unconventional derivation of the Dirac equation. The further extension of the theory to the case of two-spins-12 in the EPR entangled state and to the related violation of Bell inequalities leads, by an exact non-relativistic analysis, to an insightful resolution of all paradoxes implied by quantum nonlocality.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.