Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2002-03-28
Int.J.Theor.Phys. 41 (2002) 1423-1480
Physics
High Energy Physics
High Energy Physics - Theory
Ph.D. Thesis, 64 pages (typos in metadata corrected)
Scientific paper
In modern physics, one of the greatest divides is that between space-time and quantum fields, as the fiber bundle of the Standard Model indicates. However on the operational grounds the fields and spacetime are not very different. To describe a field in an experimental region we have to assign coordinates to the points of that region in order to speak of the "when" and "where" of the field itself. But to operationally study the topology and to coordinatize the region of spacetime, the use of radars (to send and receive electromagnetic signals) is required. Thus the description of fields (or, rather, processes) and the description of space-time are indistinguishable at the fundamental level. Moreover, classical general relativity already says -- albeit preserving the fiber bundle structure -- that spacetime and matter are intimately related. All this indicates that a new theory of elementary processes (out of which all the usual processes of creation, annihilation and propagation, and consequently the topology of spacetime itself would be constructed) has to be devised. In this thesis I present the foundations of such a finite, discrete, algebraic, quantum theory and apply it to the description of spin-1/2 quanta of the Standard Model.
Galiautdinov Andrei
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