https://doi.org/10.1140/epjp/i2014-14023-5
Regular Article
Solving the instantaneous response paradox of entangled particles using the time of events theory
1
College of Science, Physics Department, Al-Nahrain University, Baghdad, Iraq
2
Center of Scientific Care, Ministry of Youth and Sports, Baghdad, Iraq
* e-mail: sadeemfadhil@yahoo.com
Received:
16
July
2013
Revised:
30
December
2013
Accepted:
2
January
2014
Published online:
4
February
2014
In the present study, a new theory that relates the special theory of relativity with quantum mechanics is formulated and then used to explain the remote instantaneous response of entangled particles without the assumptions of nonlocality or hidden variables. The basic assumptions of the present theory stands on the foundation of two space-times, namely, the static and dynamic space-times, in which the latter contains space points that move at the speed of light. The remote instantaneous interaction of the entangled particles is due to the closeness of these particles to each other in the dynamic space-time in spite of remoteness from each other in the static space-time.
© Società Italiana di Fisica and Springer-Verlag Berlin Heidelberg, 2014