A quantitative description of a model involving a causal superluminal interpretation of the Einstein-Podolsky-Rosen (EPR) paradox is presented for the simple case of two identical correlated scalar particles. The first form of the EPR paradox (i.e., simultaneous measurement of positions and momenta) discussed in the framework of the causal interpretation by Bohm and Hiley (1975) is interpreted in this context. The evident connection between this viewpoint and the superluminal tachyon interactions introduced by Bilaniuk et al. (1962) is analyzed. It is shown that superluminal phaselike photonlike collective motions of the quantum potential in Dirac's 'ether' do not induce the paradoxes of tachyon theory.
Causal superluminal interpretation of the Einstein-Podolsky-Rosen paradox
CUFARO PETRONI, Nicola;
1979-01-01
Abstract
A quantitative description of a model involving a causal superluminal interpretation of the Einstein-Podolsky-Rosen (EPR) paradox is presented for the simple case of two identical correlated scalar particles. The first form of the EPR paradox (i.e., simultaneous measurement of positions and momenta) discussed in the framework of the causal interpretation by Bohm and Hiley (1975) is interpreted in this context. The evident connection between this viewpoint and the superluminal tachyon interactions introduced by Bilaniuk et al. (1962) is analyzed. It is shown that superluminal phaselike photonlike collective motions of the quantum potential in Dirac's 'ether' do not induce the paradoxes of tachyon theory.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
