Classical Physics

   

Quantum Entanglement and Multispace Conception

Authors: Ilgaitis Prūsis, Peteris Prūsis

In contemporary physics space is the boundless, three-dimensional extent in which objects and events occur, i.e., a large container and the force field is a part of space where force acts. In contradiction to this very basic principle of contemporary physics we here propose a new concept that space and physical force field are mutually dependent entities of the same phenomena. If the force field does not exist, then the corresponding space does not exist either. And vice verse, if space does not exist, there is no force field present. Therefore each force field is associated with a separate space, which we call eigenspace. Objects which carry several force fields form several eigenspaces, for example, an electron has gravitation eigenspace, electric eigenspace and magnetic eigenspace. Particles in one eigenspace can be entangled, while in another eigenspace they must be separated in large distances, for example, photons entangled in the electromagnetic eigenspace can be separated in the gravitation eigenspace. All eigenspaces except gravitation eigenspace are separated for direct observation. In this sense they are Einstein “hidden variables”.

Comments: 7pages, 5 figures

Download: PDF

Submission history

[v1] 2018-10-23 11:15:41

Unique-IP document downloads: 10 times

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